List of Parameters

The following is the full list of parameters and their values as used in EOS v1.0.13.

Hadronic Matrix Element Parameters

Parameters in \(B_q \leftrightarrow \bar{B}_q\) Meson Mixing

Qualified Name	Representation	Default Value	Unit
`B_s<->Bbar_s::R^1`	\(R_1^{B_s\leftrightarrow \bar{B}_s}\)	0.542	\(1\)
`B_s<->Bbar_s::R^2`	\(R_2^{B_s\leftrightarrow \bar{B}_s}\)	-0.545	\(1\)
`B_s<->Bbar_s::R^3`	\(R_3^{B_s\leftrightarrow \bar{B}_s}\)	0.109	\(1\)
`B_s<->Bbar_s::R^4`	\(R_4^{B_s\leftrightarrow \bar{B}_s}\)	0.9125	\(1\)
`B_s<->Bbar_s::R^5`	\(R_5^{B_s\leftrightarrow \bar{B}_s}\)	0.48625	\(1\)

Masses used in BSZ-like Form Factor Parametrizations

Qualified Name	Representation	Default Value	Unit
`mass::pi^0@BSZ2015`	\(m_{\pi^0}^\mathrm{BSZ}\)	0.135	\(\textrm{GeV}\)
`mass::pi^+@BSZ2015`	\(m_{\pi^\pm}^\mathrm{BSZ}\)	0.135	\(\textrm{GeV}\)
`mass::K_d@BSZ2015`	\(m_{K_d}^\mathrm{BSZ}\)	0.492	\(\textrm{GeV}\)
`mass::K_u@BSZ2015`	\(m_{K_u}^\mathrm{BSZ}\)	0.492	\(\textrm{GeV}\)
`mass::D_d@BSZ2015`	\(m_{D^\pm}^\mathrm{BSZ}\)	1.87	\(\textrm{GeV}\)
`mass::D_u@BSZ2015`	\(m_{D^0}^\mathrm{BSZ}\)	1.867	\(\textrm{GeV}\)
`mass::D_s@BSZ2015`	\(m_{D_s}^\mathrm{BSZ}\)	1.968	\(\textrm{GeV}\)
`mass::rho^+@BSZ2015`	\(m_{\rho^\pm}^\mathrm{BSZ}\)	0.7751	\(\textrm{GeV}\)
`mass::rho^0@BSZ2015`	\(m_{\rho^0}^\mathrm{BSZ}\)	0.7751	\(\textrm{GeV}\)
`mass::omega@BSZ2015`	\(m_{\omega}^\mathrm{BSZ}\)	0.7827	\(\textrm{GeV}\)
`mass::phi@BSZ2015`	\(m_{\phi}^\mathrm{BSZ}\)	1.02	\(\textrm{GeV}\)
`mass::B_d@BSZ2015`	\(m_{B_d}^\mathrm{BSZ}\)	5.279	\(\textrm{GeV}\)
`mass::B_u@BSZ2015`	\(m_{B_u}^\mathrm{BSZ}\)	5.279	\(\textrm{GeV}\)
`mass::B_s@BSZ2015`	\(m_{B_s}^\mathrm{BSZ}\)	5.366	\(\textrm{GeV}\)
`mass::B_c@BSZ2015`	\(m_{B_c}^\mathrm{BSZ}\)	6.2751	\(\textrm{GeV}\)
`mass::K_d^*@BSZ2015`	\(m_{K^{0*}}^\mathrm{BSZ}\)	0.896	\(\textrm{GeV}\)
`mass::K_u^*@BSZ2015`	\(m_{K^{\pm*}}^\mathrm{BSZ}\)	0.896	\(\textrm{GeV}\)
`mass::D_d^*@BSZ2015`	\(m_{D^{\pm*}}^\mathrm{BSZ}\)	2.0103	\(\textrm{GeV}\)
`mass::D_u^*@BSZ2015`	\(m_{D^{0*}}^\mathrm{BSZ}\)	2.0103	\(\textrm{GeV}\)
`mass::D_s^*@BSZ2015`	\(m_{D_s^*}^\mathrm{BSZ}\)	2.1121	\(\textrm{GeV}\)
`mass::B_d^*@BSZ2015`	\(m_{B^*}^\mathrm{BSZ}\)	5.325	\(\textrm{GeV}\)
`mass::B_u^*@BSZ2015`	\(m_{B^*}^\mathrm{BSZ}\)	5.325	\(\textrm{GeV}\)
`mass::B_s^*@BSZ2015`	\(m_{B_s^*}^\mathrm{BSZ}\)	5.415	\(\textrm{GeV}\)
`mass::B_c^*@BSZ2015`	\(m_{B_c^*}^\mathrm{BSZ}\)	6.3311	\(\textrm{GeV}\)
`mass::D_s,0@BSZ2015`	\(m_{D_{s,0}}^\mathrm{BSZ}\)	2.318	\(\textrm{GeV}\)
`mass::B_d,0@BSZ2015`	\(m_{B_{d,0}}^\mathrm{BSZ}\)	5.54	\(\textrm{GeV}\)
`mass::B_u,0@BSZ2015`	\(m_{B_{u,0}}^\mathrm{BSZ}\)	5.54	\(\textrm{GeV}\)
`mass::B_s,0@BSZ2015`	\(m_{B_{s,0}}^\mathrm{BSZ}\)	5.63	\(\textrm{GeV}\)
`mass::B_c,0@BSZ2015`	\(m_{B_{c,0}}^\mathrm{BSZ}\)	6.42	\(\textrm{GeV}\)
`mass::D_s,1@BSZ2015`	\(m_{D_{s,1}}^\mathrm{BSZ}\)	2.46	\(\textrm{GeV}\)
`mass::B_d,1@BSZ2015`	\(m_{B_{d,1}}^\mathrm{BSZ}\)	5.724	\(\textrm{GeV}\)
`mass::B_u,1@BSZ2015`	\(m_{B_{u,1}}^\mathrm{BSZ}\)	5.724	\(\textrm{GeV}\)
`mass::B_s,1@BSZ2015`	\(m_{B_{s,1}}^\mathrm{BSZ}\)	5.829	\(\textrm{GeV}\)
`mass::B_c,1@BSZ2015`	\(m_{B_c^*}^\mathrm{BSZ}\)	6.7671	\(\textrm{GeV}\)
`mass::Lambda@BMRvD2022`	\(m_{\Lambda}^\mathrm{BMRvD}\)	1.115683	\(\textrm{GeV}\)
`mass::Lambda_c@BMRvD2022`	\(m_{\Lambda_c}^\mathrm{BMRvD}\)	2.2865	\(\textrm{GeV}\)
`mass::Lambda_b@BMRvD2022`	\(m_{\Lambda_b}^\mathrm{BMRvD}\)	5.61951	\(\textrm{GeV}\)

Parameters in \(B\to P\) Form Factor Parametrizations

Qualified Name	Representation	Default Value	Unit
`B->pi::f_+(0)@BCL2008`	\(f_+^{B\to \pi}(0)\)	0.307	\(1\)
`B->pi::b_+^1@BCL2008`	\(b_{+, 1}^{B\to \pi}\)	-1.31	\(1\)
`B->pi::b_+^2@BCL2008`	\(b_{+, 2}^{B\to \pi}\)	-0.904	\(1\)
`B->pi::b_+^3@BCL2008`	\(b_{+, 3}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_+^4@BCL2008`	\(b_{+, 4}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_0^1@BCL2008`	\(b_{0, 1}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_0^2@BCL2008`	\(b_{0, 2}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_0^3@BCL2008`	\(b_{0, 3}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_0^4@BCL2008`	\(b_{0, 4}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_0^5@BCL2008`	\(b_{0, 5}^{B\to \pi}\)	0.0	\(1\)
`B->pi::f_T(0)@BCL2008`	\(f^{B\to \pi}_T(0)\)	0.0	\(1\)
`B->pi::b_T^1@BCL2008`	\(b_{T, 1}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_T^2@BCL2008`	\(b_{T, 2}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_T^3@BCL2008`	\(b_{T, 3}^{B\to \pi}\)	0.0	\(1\)
`B->pi::b_T^4@BCL2008`	\(b_{T, 4}^{B\to \pi}\)	0.0	\(1\)
`B->pi::alpha^f+_0@BSZ2015`	\(\alpha_{+,0}^{B \to \pi,\mathrm{BSZ2015}}\)	0.1959500850585235	\(1\)
`B->pi::alpha^f+_1@BSZ2015`	\(\alpha_{+,1}^{B \to \pi,\mathrm{BSZ2015}}\)	-0.7763565146997043	\(1\)
`B->pi::alpha^f+_2@BSZ2015`	\(\alpha_{+,2}^{B \to \pi,\mathrm{BSZ2015}}\)	-0.19660537219243024	\(1\)
`B->pi::alpha^f0_1@BSZ2015`	\(\alpha_{0,1}^{B \to \pi,\mathrm{BSZ2015}}\)	-0.01446803146697799	\(1\)
`B->pi::alpha^f0_2@BSZ2015`	\(\alpha_{0,2}^{B \to \pi,\mathrm{BSZ2015}}\)	-0.19529667411047308	\(1\)
`B->pi::alpha^fT_0@BSZ2015`	\(\alpha_{T,0}^{B \to \pi,\mathrm{BSZ2015}}\)	0.17311654822482725	\(1\)
`B->pi::alpha^fT_1@BSZ2015`	\(\alpha_{T,1}^{B \to \pi,\mathrm{BSZ2015}}\)	-0.40903716524130396	\(1\)
`B->pi::alpha^fT_2@BSZ2015`	\(\alpha_{T,2}^{B \to \pi,\mathrm{BSZ2015}}\)	-0.2580355775883392	\(1\)
`B->K::a^f+_0@BFW2010`	\(a_0^{f+,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f+_1@BFW2010`	\(a_1^{f+,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f+_2@BFW2010`	\(a_2^{f+,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f+_3@BFW2010`	\(a_3^{f+,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f+_4@BFW2010`	\(a_4^{f+,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f0_0@BFW2010`	\(a_0^{f0,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f0_1@BFW2010`	\(a_1^{f0,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f0_2@BFW2010`	\(a_2^{f0,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f0_3@BFW2010`	\(a_3^{f0,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^f0_4@BFW2010`	\(a_4^{f0,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^fT_0@BFW2010`	\(a_0^{fT,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^fT_1@BFW2010`	\(a_1^{fT,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^fT_2@BFW2010`	\(a_2^{fT,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^fT_3@BFW2010`	\(a_3^{fT,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::a^fT_4@BFW2010`	\(a_4^{fT,B \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K::tp@BFW2010`	\(t_+^{B\to K}\)	33.304441	\(\textrm{GeV}\)
`B->K::t0@BFW2010`	\(t_0^{B\to K}\)	14.7	\(\textrm{GeV}\)
`B->K::f_+(0)@BCL2008`	\(f_+^{B\to K}(0)\)	0.0	\(1\)
`B->K::f_T(0)@BCL2008`	\(f_T^{B\to K}(0)\)	0.0	\(1\)
`B->K::b_+^1@BCL2008`	\(b_{+,1}^{B \to K,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->K::b_+^2@BCL2008`	\(b_{+,2}^{B \to K,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->K::b_0^1@BCL2008`	\(b_{0,1}^{B \to K,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->K::b_0^2@BCL2008`	\(b_{0,2}^{B \to K,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->K::b_0^3@BCL2008`	\(b_{0,3}^{B \to K,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->K::b_T^1@BCL2008`	\(b_{T,1}^{B \to K,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->K::b_T^2@BCL2008`	\(b_{T,2}^{B \to K,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->K::alpha^f+_0@BSZ2015`	\(\alpha_{+,0}^{B \to K,\mathrm{BSZ2015}}\)	0.32908992854636815	\(1\)
`B->K::alpha^f+_1@BSZ2015`	\(\alpha_{+,1}^{B \to K,\mathrm{BSZ2015}}\)	-0.8669465867427438	\(1\)
`B->K::alpha^f+_2@BSZ2015`	\(\alpha_{+,2}^{B \to K,\mathrm{BSZ2015}}\)	0.006095669673341246	\(1\)
`B->K::alpha^f0_1@BSZ2015`	\(\alpha_{0,1}^{B \to K,\mathrm{BSZ2015}}\)	0.19511719957037596	\(1\)
`B->K::alpha^f0_2@BSZ2015`	\(\alpha_{0,2}^{B \to K,\mathrm{BSZ2015}}\)	-0.4461264576740431	\(1\)
`B->K::alpha^fT_0@BSZ2015`	\(\alpha_{T,0}^{B \to K,\mathrm{BSZ2015}}\)	0.2993831492500477	\(1\)
`B->K::alpha^fT_1@BSZ2015`	\(\alpha_{T,1}^{B \to K,\mathrm{BSZ2015}}\)	-0.7735456824025474	\(1\)
`B->K::alpha^fT_2@BSZ2015`	\(\alpha_{T,2}^{B \to K,\mathrm{BSZ2015}}\)	0.009554375102511888	\(1\)
`B->K::F^p(0)@KMPW2010`	\(F_+^{B\to K,\mathrm{KMPW2010}}(0)\)	0.34	\(1\)
`B->K::F^t(0)@KMPW2010`	\(F_t^{B\to K,\mathrm{KMPW2010}}(0)\)	0.39	\(1\)
`B->K::b^p_1@KMPW2010`	\(b_{+,1}^{B \to K,\mathrm{KMPW2010}}\)	-2.1	\(1\)
`B->K::b^0_1@KMPW2010`	\(b_{0,1}^{B \to K,\mathrm{KMPW2010}}\)	-4.3	\(1\)
`B->K::b^t_1@KMPW2010`	\(b_{t,1}^{B \to K,\mathrm{KMPW2010}}\)	-2.2	\(1\)
`B_s->K::alpha^f+_0@BSZ2015`	\(\alpha_{+,0}^{B_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->K::alpha^f+_1@BSZ2015`	\(\alpha_{+,1}^{B_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->K::alpha^f+_2@BSZ2015`	\(\alpha_{+,2}^{B_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->K::alpha^f0_1@BSZ2015`	\(\alpha_{0,1}^{B_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->K::alpha^f0_2@BSZ2015`	\(\alpha_{0,2}^{B_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->K::alpha^fT_0@BSZ2015`	\(\alpha_{T,0}^{B_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->K::alpha^fT_1@BSZ2015`	\(\alpha_{T,1}^{B_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->K::alpha^fT_2@BSZ2015`	\(\alpha_{T,2}^{B_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->K::a^f+_0@BFW2010`	\(a_0^{f+,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f+_1@BFW2010`	\(a_1^{f+,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f+_2@BFW2010`	\(a_2^{f+,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f+_3@BFW2010`	\(a_3^{f+,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f+_4@BFW2010`	\(a_4^{f+,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f0_0@BFW2010`	\(a_0^{f0,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f0_1@BFW2010`	\(a_1^{f0,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f0_2@BFW2010`	\(a_2^{f0,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f0_3@BFW2010`	\(a_3^{f0,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^f0_4@BFW2010`	\(a_4^{f0,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^fT_0@BFW2010`	\(a_0^{fT,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^fT_1@BFW2010`	\(a_1^{fT,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^fT_2@BFW2010`	\(a_2^{fT,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^fT_3@BFW2010`	\(a_3^{fT,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::a^fT_4@BFW2010`	\(a_4^{fT,B_s \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->K::t0@BFW2010`	\(t_0^{B_s\to K}\)	14.7	\(\textrm{GeV}\)
`B_s->K::tp@BFW2010`	\(t_+^{B_s\to K^*}\)	34.346398	\(\textrm{GeV}^2\)
`B->D::f_+(0)@BCL2008`	\(f_+^{B \to D,\mathrm{BCL2008}}(0)\)	0.66	\(1\)
`B->D::f_T(0)@BCL2008`	\(f_T^{B \to D,\mathrm{BCL2008}}(0)\)	0.0	\(1\)
`B->D::b_+^1@BCL2008`	\(b_{+,1}^{B \to D,\mathrm{BCL2008}}\)	-4.0	\(1\)
`B->D::b_+^2@BCL2008`	\(b_{+,2}^{B \to D,\mathrm{BCL2008}}\)	-0.8	\(1\)
`B->D::b_0^1@BCL2008`	\(b_{0,1}^{B \to D,\mathrm{BCL2008}}\)	0.4	\(1\)
`B->D::b_0^2@BCL2008`	\(b_{0,2}^{B \to D,\mathrm{BCL2008}}\)	-1.2	\(1\)
`B->D::b_0^3@BCL2008`	\(b_{0,3}^{B \to D,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->D::b_T^1@BCL2008`	\(b_{T,1}^{B \to D,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->D::b_T^2@BCL2008`	\(b_{T,2}^{B \to D,\mathrm{BCL2008}}\)	0.0	\(1\)
`B->D::alpha^f+_0@BSZ2015`	\(\alpha_{+,0}^{B \to D,\mathrm{BSZ2015}}\)	0.680881482963591	\(1\)
`B->D::alpha^f+_1@BSZ2015`	\(\alpha_{+,1}^{B \to D,\mathrm{BSZ2015}}\)	-2.221782088112512	\(1\)
`B->D::alpha^f+_2@BSZ2015`	\(\alpha_{+,2}^{B \to D,\mathrm{BSZ2015}}\)	0.6541000835887975	\(1\)
`B->D::alpha^f0_1@BSZ2015`	\(\alpha_{0,1}^{B \to D,\mathrm{BSZ2015}}\)	0.5779088408438552	\(1\)
`B->D::alpha^f0_2@BSZ2015`	\(\alpha_{0,2}^{B \to D,\mathrm{BSZ2015}}\)	1.3271162015486215	\(1\)
`B->D::alpha^fT_0@BSZ2015`	\(\alpha_{T,0}^{B \to D,\mathrm{BSZ2015}}\)	0.5648201165054019	\(1\)
`B->D::alpha^fT_1@BSZ2015`	\(\alpha_{T,1}^{B \to D,\mathrm{BSZ2015}}\)	-2.5027753865334676	\(1\)
`B->D::alpha^fT_2@BSZ2015`	\(\alpha_{T,2}^{B \to D,\mathrm{BSZ2015}}\)	10.591752810763625	\(1\)
`B()->D()::n_f@BGL1997`	\(n_f\)	2.0	\(\textrm{undefined}\)
`B->D::t_0@BGL1997`	\(t_0^{B\to D,\mathrm{BGL97}}\)	6.1848725	\(\textrm{GeV}^2\)
`B->D::a^f+_0@BGL1997`	\(a_{+,0}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^f+_1@BGL1997`	\(a_{+,1}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^f+_2@BGL1997`	\(a_{+,2}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^f+_3@BGL1997`	\(a_{+,3}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^f0_0@BGL1997`	\(a_{0,0}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^f0_1@BGL1997`	\(a_{0,1}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^f0_2@BGL1997`	\(a_{0,2}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^f0_3@BGL1997`	\(a_{0,3}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^fT_0@BGL1997`	\(a_{T,0}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^fT_1@BGL1997`	\(a_{T,1}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^fT_2@BGL1997`	\(a_{T,2}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D::a^fT_3@BGL1997`	\(a_{T,3}^{B\to D,\mathrm{BGL97}}\)	0.0	\(1\)
`B_s->D_s::alpha^f+_0@BSZ2015`	\(\alpha_{+,0}^{B_s \to D_s,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s::alpha^f+_1@BSZ2015`	\(\alpha_{+,1}^{B_s \to D_s,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s::alpha^f+_2@BSZ2015`	\(\alpha_{+,2}^{B_s \to D_s,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s::alpha^f0_1@BSZ2015`	\(\alpha_{0,1}^{B_s \to D_s,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s::alpha^f0_2@BSZ2015`	\(\alpha_{0,2}^{B_s \to D_s,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s::alpha^fT_0@BSZ2015`	\(\alpha_{T,0}^{B_s \to D_s,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s::alpha^fT_1@BSZ2015`	\(\alpha_{T,1}^{B_s \to D_s,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s::alpha^fT_2@BSZ2015`	\(\alpha_{T,2}^{B_s \to D_s,\mathrm{BSZ2015}}\)	0.0	\(1\)

Parameters in \(B\to V\) Form Factor Parametrizations

Qualified Name	Representation	Default Value	Unit
`B->K^*::F^V(0)@KMPW2010`	\(V^{B \to K^*,\mathrm{KMPW2010}}(0)\)	0.36	\(1\)
`B->K^*::F^A0(0)@KMPW2010`	\(A_0^{B \to K^*,\mathrm{KMPW2010}}(0)\)	0.29	\(1\)
`B->K^*::F^A1(0)@KMPW2010`	\(A_1^{B \to K^*,\mathrm{KMPW2010}}(0)\)	0.25	\(1\)
`B->K^*::F^A2(0)@KMPW2010`	\(A_2^{B \to K^*,\mathrm{KMPW2010}}(0)\)	0.23	\(1\)
`B->K^*::F^T1(0)@KMPW2010`	\(T_1^{B \to K^*,\mathrm{KMPW2010}}(0)\)	0.31	\(1\)
`B->K^*::F^T2(0)@KMPW2010`	\(T_2^{B \to K^*,\mathrm{KMPW2010}}(0)\)	0.31	\(1\)
`B->K^*::F^T3(0)@KMPW2010`	\(T_3^{B \to K^*,\mathrm{KMPW2010}}(0)\)	0.22	\(1\)
`B->K^*::b^V_1@KMPW2010`	\(b_{V,1}^{B \to K^*,\mathrm{KMPW2010}}\)	-4.8	\(1\)
`B->K^*::b^A0_1@KMPW2010`	\(b_{A_0,1}^{B \to K^*,\mathrm{KMPW2010}}\)	-18.2	\(1\)
`B->K^*::b^A1_1@KMPW2010`	\(b_{A_1,1}^{B \to K^*,\mathrm{KMPW2010}}\)	0.34	\(1\)
`B->K^*::b^A2_1@KMPW2010`	\(b_{A_2,1}^{B \to K^*,\mathrm{KMPW2010}}\)	-0.85	\(1\)
`B->K^*::b^T1_1@KMPW2010`	\(b_{T_1,1}^{B \to K^*,\mathrm{KMPW2010}}\)	-4.6	\(1\)
`B->K^*::b^T2_1@KMPW2010`	\(b_{T_2,1}^{B \to K^*,\mathrm{KMPW2010}}\)	-3.2	\(1\)
`B->K^*::b^T3_1@KMPW2010`	\(b_{T_3,1}^{B \to K^*,\mathrm{KMPW2010}}\)	-10.3	\(1\)
`B_s->K^*::alpha^A0_0@BSZ2015`	\(\alpha_{A_0,0}^{B_s \to K^*,\mathrm{BSZ2015}}\)	0.362963	\(1\)
`B_s->K^*::alpha^A0_1@BSZ2015`	\(\alpha_{A_0,1}^{B_s \to K^*,\mathrm{BSZ2015}}\)	-0.362957	\(1\)
`B_s->K^*::alpha^A0_2@BSZ2015`	\(\alpha_{A_0,2}^{B_s \to K^*,\mathrm{BSZ2015}}\)	8.02781	\(1\)
`B_s->K^*::alpha^A1_0@BSZ2015`	\(\alpha_{A_1,0}^{B_s \to K^*,\mathrm{BSZ2015}}\)	0.223059	\(1\)
`B_s->K^*::alpha^A1_1@BSZ2015`	\(\alpha_{A_1,1}^{B_s \to K^*,\mathrm{BSZ2015}}\)	0.239792	\(1\)
`B_s->K^*::alpha^A1_2@BSZ2015`	\(\alpha_{A_1,2}^{B_s \to K^*,\mathrm{BSZ2015}}\)	1.76787	\(1\)
`B_s->K^*::alpha^A12_1@BSZ2015`	\(\alpha_{A_{12},1}^{B_s \to K^*,\mathrm{BSZ2015}}\)	1.11596	\(1\)
`B_s->K^*::alpha^A12_2@BSZ2015`	\(\alpha_{A_{12},2}^{B_s \to K^*,\mathrm{BSZ2015}}\)	3.42926	\(1\)
`B_s->K^*::alpha^V_0@BSZ2015`	\(\alpha_{V,0}^{B_s \to K^*,\mathrm{BSZ2015}}\)	0.278079	\(1\)
`B_s->K^*::alpha^V_1@BSZ2015`	\(\alpha_{V,1}^{B_s \to K^*,\mathrm{BSZ2015}}\)	-0.819609	\(1\)
`B_s->K^*::alpha^V_2@BSZ2015`	\(\alpha_{V,2}^{B_s \to K^*,\mathrm{BSZ2015}}\)	5.07652	\(1\)
`B_s->K^*::alpha^T1_0@BSZ2015`	\(\alpha_{T_1,0}^{B_s \to K^*,\mathrm{BSZ2015}}\)	0.236867	\(1\)
`B_s->K^*::alpha^T1_1@BSZ2015`	\(\alpha_{T_1,1}^{B_s \to K^*,\mathrm{BSZ2015}}\)	-0.74862	\(1\)
`B_s->K^*::alpha^T1_2@BSZ2015`	\(\alpha_{T_1,2}^{B_s \to K^*,\mathrm{BSZ2015}}\)	2.49014	\(1\)
`B_s->K^*::alpha^T2_1@BSZ2015`	\(\alpha_{T_2,1}^{B_s \to K^*,\mathrm{BSZ2015}}\)	0.31254	\(1\)
`B_s->K^*::alpha^T2_2@BSZ2015`	\(\alpha_{T_2,2}^{B_s \to K^*,\mathrm{BSZ2015}}\)	1.58141	\(1\)
`B_s->K^*::alpha^T23_0@BSZ2015`	\(\alpha_{T_{23},0}^{B_s \to K^*,\mathrm{BSZ2015}}\)	0.603261	\(1\)
`B_s->K^*::alpha^T23_1@BSZ2015`	\(\alpha_{T_{23},1}^{B_s \to K^*,\mathrm{BSZ2015}}\)	2.39992	\(1\)
`B_s->K^*::alpha^T23_2@BSZ2015`	\(\alpha_{T_{23},2}^{B_s \to K^*,\mathrm{BSZ2015}}\)	9.64299	\(\textrm{undefined}\)
`B->omega::alpha^A0_0@BSZ2015`	\(\alpha_{A_0,0}^{B \to \omega,\mathrm{BSZ2015}}\)	0.327866	\(1\)
`B->omega::alpha^A0_1@BSZ2015`	\(\alpha_{A_0,1}^{B \to \omega,\mathrm{BSZ2015}}\)	-0.826659	\(1\)
`B->omega::alpha^A0_2@BSZ2015`	\(\alpha_{A_0,2}^{B \to \omega,\mathrm{BSZ2015}}\)	1.42113	\(1\)
`B->omega::alpha^A1_0@BSZ2015`	\(\alpha_{A_1,0}^{B \to \omega,\mathrm{BSZ2015}}\)	0.242567	\(1\)
`B->omega::alpha^A1_1@BSZ2015`	\(\alpha_{A_1,1}^{B \to \omega,\mathrm{BSZ2015}}\)	0.342791	\(1\)
`B->omega::alpha^A1_2@BSZ2015`	\(\alpha_{A_1,2}^{B \to \omega,\mathrm{BSZ2015}}\)	0.0926204	\(1\)
`B->omega::alpha^A12_1@BSZ2015`	\(\alpha_{A_{12},1}^{B \to \omega,\mathrm{BSZ2015}}\)	0.65589	\(1\)
`B->omega::alpha^A12_2@BSZ2015`	\(\alpha_{A_{12},2}^{B \to \omega,\mathrm{BSZ2015}}\)	0.277567	\(1\)
`B->omega::alpha^V_0@BSZ2015`	\(\alpha_{V,0}^{B \to \omega,\mathrm{BSZ2015}}\)	0.304239	\(1\)
`B->omega::alpha^V_1@BSZ2015`	\(\alpha_{V,1}^{B \to \omega,\mathrm{BSZ2015}}\)	-0.832336	\(1\)
`B->omega::alpha^V_2@BSZ2015`	\(\alpha_{V,2}^{B \to \omega,\mathrm{BSZ2015}}\)	1.71741	\(1\)
`B->omega::alpha^T1_0@BSZ2015`	\(\alpha_{T_1,0}^{B \to \omega,\mathrm{BSZ2015}}\)	0.25137	\(1\)
`B->omega::alpha^T1_1@BSZ2015`	\(\alpha_{T_1,1}^{B \to \omega,\mathrm{BSZ2015}}\)	-0.715314	\(1\)
`B->omega::alpha^T1_2@BSZ2015`	\(\alpha_{T_1,2}^{B \to \omega,\mathrm{BSZ2015}}\)	1.41463	\(1\)
`B->omega::alpha^T2_1@BSZ2015`	\(\alpha_{T_2,1}^{B \to \omega,\mathrm{BSZ2015}}\)	0.412936	\(1\)
`B->omega::alpha^T2_2@BSZ2015`	\(\alpha_{T_2,2}^{B \to \omega,\mathrm{BSZ2015}}\)	0.460141	\(1\)
`B->omega::alpha^T23_0@BSZ2015`	\(\alpha_{T_{23},0}^{B \to \omega,\mathrm{BSZ2015}}\)	0.682582	\(1\)
`B->omega::alpha^T23_1@BSZ2015`	\(\alpha_{T_{23},1}^{B \to \omega,\mathrm{BSZ2015}}\)	1.64618	\(1\)
`B->omega::alpha^T23_2@BSZ2015`	\(\alpha_{T_{23},2}^{B \to \omega,\mathrm{BSZ2015}}\)	2.4695	\(\textrm{undefined}\)
`B->rho::alpha^A0_0@BSZ2015`	\(\alpha_{A_0,0}^{B \to \rho,\mathrm{BSZ2015}}\)	0.2925336490766787	\(1\)
`B->rho::alpha^A0_1@BSZ2015`	\(\alpha_{A_0,1}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.7432269609691062	\(1\)
`B->rho::alpha^A0_2@BSZ2015`	\(\alpha_{A_0,2}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.013648222902133517	\(1\)
`B->rho::alpha^A1_0@BSZ2015`	\(\alpha_{A_1,0}^{B \to \rho,\mathrm{BSZ2015}}\)	0.2142700210705677	\(1\)
`B->rho::alpha^A1_1@BSZ2015`	\(\alpha_{A_1,1}^{B \to \rho,\mathrm{BSZ2015}}\)	0.4948341716573042	\(1\)
`B->rho::alpha^A1_2@BSZ2015`	\(\alpha_{A_1,2}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.5898416575860281	\(1\)
`B->rho::alpha^A12_1@BSZ2015`	\(\alpha_{A_{12},1}^{B \to \rho,\mathrm{BSZ2015}}\)	0.5301085432518904	\(1\)
`B->rho::alpha^A12_2@BSZ2015`	\(\alpha_{A_{12},2}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.1698995165626285	\(1\)
`B->rho::alpha^V_0@BSZ2015`	\(\alpha_{V,0}^{B \to \rho,\mathrm{BSZ2015}}\)	0.2712565197401259	\(1\)
`B->rho::alpha^V_1@BSZ2015`	\(\alpha_{V,1}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.4925853027266176	\(1\)
`B->rho::alpha^V_2@BSZ2015`	\(\alpha_{V,2}^{B \to \rho,\mathrm{BSZ2015}}\)	-1.1971343036772617	\(1\)
`B->rho::alpha^T1_0@BSZ2015`	\(\alpha_{T_1,0}^{B \to \rho,\mathrm{BSZ2015}}\)	0.2375503875107005	\(1\)
`B->rho::alpha^T1_1@BSZ2015`	\(\alpha_{T_1,1}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.45934079379480375	\(1\)
`B->rho::alpha^T1_2@BSZ2015`	\(\alpha_{T_1,2}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.8719619977491347	\(1\)
`B->rho::alpha^T2_1@BSZ2015`	\(\alpha_{T_2,1}^{B \to \rho,\mathrm{BSZ2015}}\)	0.648543608510588	\(1\)
`B->rho::alpha^T2_2@BSZ2015`	\(\alpha_{T_2,2}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.8367381225762223	\(1\)
`B->rho::alpha^T23_0@BSZ2015`	\(\alpha_{T_{23},0}^{B \to \rho,\mathrm{BSZ2015}}\)	0.558651527683086	\(1\)
`B->rho::alpha^T23_1@BSZ2015`	\(\alpha_{T_{23},1}^{B \to \rho,\mathrm{BSZ2015}}\)	0.9756780226625973	\(1\)
`B->rho::alpha^T23_2@BSZ2015`	\(\alpha_{T_{23},2}^{B \to \rho,\mathrm{BSZ2015}}\)	-0.617057014268725	\(\textrm{undefined}\)
`B->K^*::alpha^A0_0@BSZ2015`	\(\alpha_{A_0,0}^{B \to K^*,\mathrm{BSZ2015}}\)	0.333565209671414	\(1\)
`B->K^*::alpha^A0_1@BSZ2015`	\(\alpha_{A_0,1}^{B \to K^*,\mathrm{BSZ2015}}\)	-1.1164087925500106	\(1\)
`B->K^*::alpha^A0_2@BSZ2015`	\(\alpha_{A_0,2}^{B \to K^*,\mathrm{BSZ2015}}\)	2.497069832700105	\(1\)
`B->K^*::alpha^A1_0@BSZ2015`	\(\alpha_{A_1,0}^{B \to K^*,\mathrm{BSZ2015}}\)	0.28899504979162	\(1\)
`B->K^*::alpha^A1_1@BSZ2015`	\(\alpha_{A_1,1}^{B \to K^*,\mathrm{BSZ2015}}\)	0.4566061262798284	\(1\)
`B->K^*::alpha^A1_2@BSZ2015`	\(\alpha_{A_1,2}^{B \to K^*,\mathrm{BSZ2015}}\)	1.1829764611868705	\(1\)
`B->K^*::alpha^A12_1@BSZ2015`	\(\alpha_{A_{12},1}^{B \to K^*,\mathrm{BSZ2015}}\)	0.5041466779610547	\(1\)
`B->K^*::alpha^A12_2@BSZ2015`	\(\alpha_{A_{12},2}^{B \to K^*,\mathrm{BSZ2015}}\)	0.523751990094357	\(1\)
`B->K^*::alpha^V_0@BSZ2015`	\(\alpha_{V,0}^{B \to K^*,\mathrm{BSZ2015}}\)	0.3641736466070142	\(1\)
`B->K^*::alpha^V_1@BSZ2015`	\(\alpha_{V,1}^{B \to K^*,\mathrm{BSZ2015}}\)	-1.0924590752515513	\(1\)
`B->K^*::alpha^V_2@BSZ2015`	\(\alpha_{V,2}^{B \to K^*,\mathrm{BSZ2015}}\)	2.5954783573262934	\(1\)
`B->K^*::alpha^T1_0@BSZ2015`	\(\alpha_{T_1,0}^{B \to K^*,\mathrm{BSZ2015}}\)	0.31922162296608125	\(1\)
`B->K^*::alpha^T1_1@BSZ2015`	\(\alpha_{T_1,1}^{B \to K^*,\mathrm{BSZ2015}}\)	-0.9539833567723242	\(1\)
`B->K^*::alpha^T1_2@BSZ2015`	\(\alpha_{T_1,2}^{B \to K^*,\mathrm{BSZ2015}}\)	2.040771175053964	\(1\)
`B->K^*::alpha^T2_1@BSZ2015`	\(\alpha_{T_2,1}^{B \to K^*,\mathrm{BSZ2015}}\)	0.6020794846388718	\(1\)
`B->K^*::alpha^T2_2@BSZ2015`	\(\alpha_{T_2,2}^{B \to K^*,\mathrm{BSZ2015}}\)	1.699282551872677	\(1\)
`B->K^*::alpha^T23_0@BSZ2015`	\(\alpha_{T_{23},0}^{B \to K^*,\mathrm{BSZ2015}}\)	0.6058860992660229	\(1\)
`B->K^*::alpha^T23_1@BSZ2015`	\(\alpha_{T_{23},1}^{B \to K^*,\mathrm{BSZ2015}}\)	0.8867716020286049	\(1\)
`B->K^*::alpha^T23_2@BSZ2015`	\(\alpha_{T_{23},2}^{B \to K^*,\mathrm{BSZ2015}}\)	1.8831160249369858	\(1\)
`B->K^*::a^V_0@BFW2010`	\(a_0^{V,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^V_1@BFW2010`	\(a_1^{V,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^V_2@BFW2010`	\(a_2^{V,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^V_3@BFW2010`	\(a_3^{V,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^V_4@BFW2010`	\(a_4^{V,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A0_0@BFW2010`	\(a_0^{A0,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A0_1@BFW2010`	\(a_1^{A0,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A0_2@BFW2010`	\(a_2^{A0,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A0_3@BFW2010`	\(a_3^{A0,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A0_4@BFW2010`	\(a_4^{A0,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A1_0@BFW2010`	\(a_0^{A1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A1_1@BFW2010`	\(a_1^{A1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A1_2@BFW2010`	\(a_2^{A1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A1_3@BFW2010`	\(a_3^{A1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A1_4@BFW2010`	\(a_4^{A1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A12_0@BFW2010`	\(a_0^{A12,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A12_1@BFW2010`	\(a_1^{A12,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A12_2@BFW2010`	\(a_2^{A12,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A12_3@BFW2010`	\(a_3^{A12,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^A12_4@BFW2010`	\(a_4^{A12,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T1_0@BFW2010`	\(a_0^{T1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T1_1@BFW2010`	\(a_1^{T1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T1_2@BFW2010`	\(a_2^{T1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T1_3@BFW2010`	\(a_3^{T1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T1_4@BFW2010`	\(a_4^{T1,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T2_0@BFW2010`	\(a_0^{T2,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T2_1@BFW2010`	\(a_1^{T2,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T2_2@BFW2010`	\(a_2^{T2,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T2_3@BFW2010`	\(a_3^{T2,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T2_4@BFW2010`	\(a_4^{T2,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T23_0@BFW2010`	\(a_0^{T23,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T23_1@BFW2010`	\(a_1^{T23,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T23_2@BFW2010`	\(a_2^{T23,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T23_3@BFW2010`	\(a_3^{T23,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::a^T23_4@BFW2010`	\(a_4^{T23,B \to K^*,\mathrm{BFW2010}}\)	0.0	\(1\)
`B->K^*::tp_a@BFW2010`	\(t_+^{A, B\to K^*}\)	34.880836	\(\textrm{GeV}\)
`B->K^*::tp_v@BFW2010`	\(t_+^{V, B\to K^*}\)	33.304441	\(\textrm{GeV}\)
`B->K^*::t0@BFW2010`	\(t_0^{B\to K^*}\)	11.5	\(\textrm{GeV}\)
`B_s->phi::alpha^A0_0@BSZ2015`	\(\alpha_{A_0,0}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.388675	\(1\)
`B_s->phi::alpha^A0_1@BSZ2015`	\(\alpha_{A_0,1}^{B_s \to \phi,\mathrm{BSZ2015}}\)	-0.783874	\(1\)
`B_s->phi::alpha^A0_2@BSZ2015`	\(\alpha_{A_0,2}^{B_s \to \phi,\mathrm{BSZ2015}}\)	2.41473	\(1\)
`B_s->phi::alpha^A1_0@BSZ2015`	\(\alpha_{A_1,0}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.295607	\(1\)
`B_s->phi::alpha^A1_1@BSZ2015`	\(\alpha_{A_1,1}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.483914	\(1\)
`B_s->phi::alpha^A1_2@BSZ2015`	\(\alpha_{A_1,2}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.291817	\(1\)
`B_s->phi::alpha^A12_1@BSZ2015`	\(\alpha_{A_{12},1}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.764562	\(1\)
`B_s->phi::alpha^A12_2@BSZ2015`	\(\alpha_{A_{12},2}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.711083	\(1\)
`B_s->phi::alpha^V_0@BSZ2015`	\(\alpha_{V,0}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.386556	\(1\)
`B_s->phi::alpha^V_1@BSZ2015`	\(\alpha_{V,1}^{B_s \to \phi,\mathrm{BSZ2015}}\)	-1.02957	\(1\)
`B_s->phi::alpha^V_2@BSZ2015`	\(\alpha_{V,2}^{B_s \to \phi,\mathrm{BSZ2015}}\)	3.50499	\(1\)
`B_s->phi::alpha^T1_0@BSZ2015`	\(\alpha_{T_1,0}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.309106	\(1\)
`B_s->phi::alpha^T1_1@BSZ2015`	\(\alpha_{T_1,1}^{B_s \to \phi,\mathrm{BSZ2015}}\)	-0.867808	\(1\)
`B_s->phi::alpha^T1_2@BSZ2015`	\(\alpha_{T_1,2}^{B_s \to \phi,\mathrm{BSZ2015}}\)	2.74535	\(1\)
`B_s->phi::alpha^T2_1@BSZ2015`	\(\alpha_{T_2,1}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.58328	\(1\)
`B_s->phi::alpha^T2_2@BSZ2015`	\(\alpha_{T_2,2}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.893065	\(1\)
`B_s->phi::alpha^T23_0@BSZ2015`	\(\alpha_{T_{23},0}^{B_s \to \phi,\mathrm{BSZ2015}}\)	0.675618	\(1\)
`B_s->phi::alpha^T23_1@BSZ2015`	\(\alpha_{T_{23},1}^{B_s \to \phi,\mathrm{BSZ2015}}\)	2.11435	\(1\)
`B_s->phi::alpha^T23_2@BSZ2015`	\(\alpha_{T_{23},2}^{B_s \to \phi,\mathrm{BSZ2015}}\)	4.93525	\(\textrm{undefined}\)
`B_s->phi::a^V_0@BFW2010`	\(a_0^{V,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^V_1@BFW2010`	\(a_1^{V,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^V_2@BFW2010`	\(a_2^{V,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^V_3@BFW2010`	\(a_3^{V,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^V_4@BFW2010`	\(a_4^{V,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A0_0@BFW2010`	\(a_0^{A0,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A0_1@BFW2010`	\(a_1^{A0,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A0_2@BFW2010`	\(a_2^{A0,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A0_3@BFW2010`	\(a_3^{A0,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A0_4@BFW2010`	\(a_4^{A0,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A1_0@BFW2010`	\(a_0^{A1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A1_1@BFW2010`	\(a_1^{A1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A1_2@BFW2010`	\(a_2^{A1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A1_3@BFW2010`	\(a_3^{A1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A1_4@BFW2010`	\(a_4^{A1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A12_0@BFW2010`	\(a_0^{A12,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A12_1@BFW2010`	\(a_1^{A12,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A12_2@BFW2010`	\(a_2^{A12,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A12_3@BFW2010`	\(a_3^{A12,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^A12_4@BFW2010`	\(a_4^{A12,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T1_0@BFW2010`	\(a_0^{T1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T1_1@BFW2010`	\(a_1^{T1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T1_2@BFW2010`	\(a_2^{T1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T1_3@BFW2010`	\(a_3^{T1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T1_4@BFW2010`	\(a_4^{T1,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T2_0@BFW2010`	\(a_0^{T2,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T2_1@BFW2010`	\(a_1^{T2,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T2_2@BFW2010`	\(a_2^{T2,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T2_3@BFW2010`	\(a_3^{T2,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T2_4@BFW2010`	\(a_4^{T2,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T23_0@BFW2010`	\(a_0^{T23,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T23_1@BFW2010`	\(a_1^{T23,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T23_2@BFW2010`	\(a_2^{T23,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T23_3@BFW2010`	\(a_3^{T23,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::a^T23_4@BFW2010`	\(a_4^{T23,B_s \to \phi,\mathrm{BFW2010}}\)	0.0	\(1\)
`B_s->phi::tp_a@BFW2010`	\(t_+^{A, B_s\to\phi}\)	34.880836	\(\textrm{GeV}\)
`B_s->phi::tp_v@BFW2010`	\(t_+^{V, B_s\to\phi}\)	33.304441	\(\textrm{GeV}\)
`B_s->phi::t0@BFW2010`	\(t_0^{B_s\to\phi}\)	11.5	\(\textrm{GeV}\)
`B->D^*::alpha^A0_0@BSZ2015`	\(\alpha_{A_0,0}^{B \to D^*,\mathrm{BSZ2015}}\)	0.6759274184148141	\(1\)
`B->D^*::alpha^A0_1@BSZ2015`	\(\alpha_{A_0,1}^{B \to D^*,\mathrm{BSZ2015}}\)	-2.6637000799846655	\(1\)
`B->D^*::alpha^A0_2@BSZ2015`	\(\alpha_{A_0,2}^{B \to D^*,\mathrm{BSZ2015}}\)	9.24495323738047	\(1\)
`B->D^*::alpha^A1_0@BSZ2015`	\(\alpha_{A_1,0}^{B \to D^*,\mathrm{BSZ2015}}\)	0.601315572767782	\(1\)
`B->D^*::alpha^A1_1@BSZ2015`	\(\alpha_{A_1,1}^{B \to D^*,\mathrm{BSZ2015}}\)	0.2689438444495897	\(1\)
`B->D^*::alpha^A1_2@BSZ2015`	\(\alpha_{A_1,2}^{B \to D^*,\mathrm{BSZ2015}}\)	10.486032487112988	\(1\)
`B->D^*::alpha^A12_1@BSZ2015`	\(\alpha_{A_{12},1}^{B \to D^*,\mathrm{BSZ2015}}\)	-0.14876383294863582	\(1\)
`B->D^*::alpha^A12_2@BSZ2015`	\(\alpha_{A_{12},2}^{B \to D^*,\mathrm{BSZ2015}}\)	5.724359813703122	\(1\)
`B->D^*::alpha^V_0@BSZ2015`	\(\alpha_{V,0}^{B \to D^*,\mathrm{BSZ2015}}\)	0.6851323923652662	\(1\)
`B->D^*::alpha^V_1@BSZ2015`	\(\alpha_{V,1}^{B \to D^*,\mathrm{BSZ2015}}\)	-1.1678379355866901	\(1\)
`B->D^*::alpha^V_2@BSZ2015`	\(\alpha_{V,2}^{B \to D^*,\mathrm{BSZ2015}}\)	-4.016847943717434	\(1\)
`B->D^*::alpha^T1_0@BSZ2015`	\(\alpha_{T_1,0}^{B \to D^*,\mathrm{BSZ2015}}\)	0.6302298493900512	\(1\)
`B->D^*::alpha^T1_1@BSZ2015`	\(\alpha_{T_1,1}^{B \to D^*,\mathrm{BSZ2015}}\)	-1.4175767766320952	\(1\)
`B->D^*::alpha^T1_2@BSZ2015`	\(\alpha_{T_1,2}^{B \to D^*,\mathrm{BSZ2015}}\)	-0.6878528871949201	\(1\)
`B->D^*::alpha^T2_1@BSZ2015`	\(\alpha_{T_2,1}^{B \to D^*,\mathrm{BSZ2015}}\)	1.5226848746033717	\(1\)
`B->D^*::alpha^T2_2@BSZ2015`	\(\alpha_{T_2,2}^{B \to D^*,\mathrm{BSZ2015}}\)	0.006625613047247359	\(1\)
`B->D^*::alpha^T23_0@BSZ2015`	\(\alpha_{T_{23},0}^{B \to D^*,\mathrm{BSZ2015}}\)	0.806230464649646	\(1\)
`B->D^*::alpha^T23_1@BSZ2015`	\(\alpha_{T_{23},1}^{B \to D^*,\mathrm{BSZ2015}}\)	0.5855443911134184	\(1\)
`B->D^*::alpha^T23_2@BSZ2015`	\(\alpha_{T_{23},2}^{B \to D^*,\mathrm{BSZ2015}}\)	4.667079193615467	\(1\)
`B->D^*::t_0@BGL1997`	\(t_0^{B\to D^*,\mathrm{BGL97}}\)	5.6417164	\(\textrm{GeV}^2\)
`B->D^*::a^g_0@BGL1997`	\(a_{g,0}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^g_1@BGL1997`	\(a_{g,1}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^g_2@BGL1997`	\(a_{g,2}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^g_3@BGL1997`	\(a_{g,3}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^f_0@BGL1997`	\(a_{f,0}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^f_1@BGL1997`	\(a_{f,1}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^f_2@BGL1997`	\(a_{f,2}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^f_3@BGL1997`	\(a_{f,3}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^F1_0@BGL1997`	\(a_{F_1,0}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^F1_1@BGL1997`	\(a_{F_1,1}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^F1_2@BGL1997`	\(a_{F_1,2}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^F1_3@BGL1997`	\(a_{F_1,3}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^F2_0@BGL1997`	\(a_{F_2,0}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^F2_1@BGL1997`	\(a_{F_2,1}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^F2_2@BGL1997`	\(a_{F_2,2}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^F2_3@BGL1997`	\(a_{F_2,3}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T1_0@BGL1997`	\(a_{T_1,0}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T1_1@BGL1997`	\(a_{T_1,1}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T1_2@BGL1997`	\(a_{T_1,2}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T1_3@BGL1997`	\(a_{T_1,3}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T2_0@BGL1997`	\(a_{T_2,0}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T2_1@BGL1997`	\(a_{T_2,1}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T2_2@BGL1997`	\(a_{T_2,2}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T2_3@BGL1997`	\(a_{T_2,3}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T23_0@BGL1997`	\(a_{T_{23},0}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T23_1@BGL1997`	\(a_{T_{23},1}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T23_2@BGL1997`	\(a_{T_{23},2}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B->D^*::a^T23_3@BGL1997`	\(a_{T_{23},3}^{B\to D^*,\mathrm{BGL97}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^A0_0@BSZ2015`	\(\alpha_{A_0,0}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^A0_1@BSZ2015`	\(\alpha_{A_0,1}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^A0_2@BSZ2015`	\(\alpha_{A_0,2}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^A1_0@BSZ2015`	\(\alpha_{A_1,0}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^A1_1@BSZ2015`	\(\alpha_{A_1,1}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^A1_2@BSZ2015`	\(\alpha_{A_1,2}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^A12_1@BSZ2015`	\(\alpha_{A_{12},1}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^A12_2@BSZ2015`	\(\alpha_{A_{12},2}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^V_0@BSZ2015`	\(\alpha_{V,0}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^V_1@BSZ2015`	\(\alpha_{V,1}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^V_2@BSZ2015`	\(\alpha_{V,2}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^T1_0@BSZ2015`	\(\alpha_{T_1,0}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^T1_1@BSZ2015`	\(\alpha_{T_1,1}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^T1_2@BSZ2015`	\(\alpha_{T_1,2}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^T2_1@BSZ2015`	\(\alpha_{T_2,1}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^T2_2@BSZ2015`	\(\alpha_{T_2,2}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^T23_0@BSZ2015`	\(\alpha_{T_{23},0}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^T23_1@BSZ2015`	\(\alpha_{T_{23},1}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B_s->D_s^*::alpha^T23_2@BSZ2015`	\(\alpha_{T_{23},2}^{B_s \to D_s^*,\mathrm{BSZ2015}}\)	0.0	\(1\)
`B->gamma^*::N^omega_1_0@KKvDZ2022`	\(N_{\omega,1,0}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	0.0156	\(1\)
`B->gamma^*::N^omega_1_1@KKvDZ2022`	\(N_{\omega,1,1}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.033	\(1\)
`B->gamma^*::N^omega_1_2@KKvDZ2022`	\(N_{\omega,1,2}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	0.003	\(1\)
`B->gamma^*::N^omega_2_0@KKvDZ2022`	\(N_{\omega,2,0}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.186	\(1\)
`B->gamma^*::N^omega_2_1@KKvDZ2022`	\(N_{\omega,2,1}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	0.39	\(1\)
`B->gamma^*::N^omega_2_2@KKvDZ2022`	\(N_{\omega,2,2}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.17	\(1\)
`B->gamma^*::N^omega_3_0@KKvDZ2022`	\(N_{\omega,3,0}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.186	\(1\)
`B->gamma^*::N^omega_3_1@KKvDZ2022`	\(N_{\omega,3,1}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	0.47	\(1\)
`B->gamma^*::N^omega_3_2@KKvDZ2022`	\(N_{\omega,3,2}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.8	\(1\)
`B->gamma^*::N^omega_4_0@KKvDZ2022`	\(N_{\omega,4,0}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.0222	\(1\)
`B->gamma^*::N^omega_4_1@KKvDZ2022`	\(N_{\omega,4,1}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	0.061	\(1\)
`B->gamma^*::N^omega_4_2@KKvDZ2022`	\(N_{\omega,4,2}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.125	\(1\)
`B->gamma^*::N^rho_1_0@KKvDZ2022`	\(N_{\rho,1,0}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	0.0557	\(1\)
`B->gamma^*::N^rho_1_1@KKvDZ2022`	\(N_{\rho,1,1}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.115	\(1\)
`B->gamma^*::N^rho_1_2@KKvDZ2022`	\(N_{\rho,1,2}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	0.01	\(1\)
`B->gamma^*::N^rho_2_0@KKvDZ2022`	\(N_{\rho,2,0}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.676	\(1\)
`B->gamma^*::N^rho_2_1@KKvDZ2022`	\(N_{\rho,2,1}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	1.34	\(1\)
`B->gamma^*::N^rho_2_2@KKvDZ2022`	\(N_{\rho,2,2}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.6	\(1\)
`B->gamma^*::N^rho_3_0@KKvDZ2022`	\(N_{\rho,3,0}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.676	\(1\)
`B->gamma^*::N^rho_3_1@KKvDZ2022`	\(N_{\rho,3,1}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	1.58	\(1\)
`B->gamma^*::N^rho_3_2@KKvDZ2022`	\(N_{\rho,3,2}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-2.5	\(1\)
`B->gamma^*::N^rho_4_0@KKvDZ2022`	\(N_{\rho,4,0}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.0795	\(1\)
`B->gamma^*::N^rho_4_1@KKvDZ2022`	\(N_{\rho,4,1}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	0.209	\(1\)
`B->gamma^*::N^rho_4_2@KKvDZ2022`	\(N_{\rho,4,2}^{B \to \gamma^*,\mathrm{KKvDZ2022}}\)	-0.44	\(1\)
`B->gamma^*::c_1_0@KKvDZ2022`	\(c_{1,0}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_1_1@KKvDZ2022`	\(c_{1,1}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_1_2@KKvDZ2022`	\(c_{1,2}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_2_0@KKvDZ2022`	\(c_{2,0}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_2_1@KKvDZ2022`	\(c_{2,1}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_2_2@KKvDZ2022`	\(c_{2,2}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_3_0@KKvDZ2022`	\(c_{3,0}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_3_1@KKvDZ2022`	\(c_{3,1}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_3_2@KKvDZ2022`	\(c_{3,2}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_4_0@KKvDZ2022`	\(c_{4,0}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_4_1@KKvDZ2022`	\(c_{4,1}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::c_4_2@KKvDZ2022`	\(c_{4,2}^{B \to \gamma^*}\)	0.0	\(1\)
`B->gamma^*::s_0@KKvDZ2022`	\(s_0^{B \to \gamma^*}\)	0.0	\(1\)

Parameters in \(B\to \gamma\) Form Factor Parametrizations

Qualified Name	Representation	Default Value	Unit
`B->gamma::mu@FLvD2022QCDF`	\(\mu^{B \to \gamma, \mathrm{FLvD2022QCDF}}\)	1.5	\(\textrm{GeV}\)
`B->gamma::M^2@FLvD2022QCDF`	\(M^{B \to \gamma, \mathrm{FLvD2022QCDF}}\)	1.25	\(\textrm{GeV}\)
`B->gamma::s_0@FLvD2022QCDF`	\(s_0^{B \to \gamma, \mathrm{FLvD2022QCDF}}\)	1.5	\(\textrm{GeV}^2\)
`B->gamma::mu_h1@FLvD2022QCDF`	\(\mu_{h1}^{B \to \gamma, \mathrm{FLvD2022QCDF}}\)	4.8	\(\textrm{GeV}\)
`B->gamma::mu_h2@FLvD2022QCDF`	\(\mu_{h2}^{B \to \gamma, \mathrm{FLvD2022QCDF}}\)	4.8	\(\textrm{GeV}\)

Parameters in \(B\to PP\) Form Factor Parametrizations

Qualified Name	Representation	Unit
`B->pipi::a^Fperp_0_0@FvDV2018`	\(a_{\perp,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(1\)
`B->pipi::a^Fperp_0_1@FvDV2018`	\(a_{\perp,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(1\)
`B->pipi::a^Fperp_0_2@FvDV2018`	\(a_{\perp,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(1\)
`B->pipi::a^Fperp_0_3@FvDV2018`	\(a_{\perp,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(1\)
`B->pipi::a^Fperp_1_0@FvDV2018`	\(a_{\perp,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(1\)
`B->pipi::a^Fperp_1_1@FvDV2018`	\(a_{\perp,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(1\)
`B->pipi::a^Fperp_1_2@FvDV2018`	\(a_{\perp,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(1\)
`B->pipi::b^Fperp_0_0@FvDV2018`	\(b_{\perp,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fperp_0_1@FvDV2018`	\(b_{\perp,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fperp_0_2@FvDV2018`	\(b_{\perp,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fperp_0_3@FvDV2018`	\(b_{\perp,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fperp_1_0@FvDV2018`	\(b_{\perp,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fperp_1_1@FvDV2018`	\(b_{\perp,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fperp_1_2@FvDV2018`	\(b_{\perp,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fperp_0_0@FvDV2018`	\(c_{\perp,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fperp_0_1@FvDV2018`	\(c_{\perp,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fperp_0_2@FvDV2018`	\(c_{\perp,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fperp_0_3@FvDV2018`	\(c_{\perp,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fperp_1_0@FvDV2018`	\(c_{\perp,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fperp_1_1@FvDV2018`	\(c_{\perp,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fperp_1_2@FvDV2018`	\(c_{\perp,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Fpara_0_0@FvDV2018`	\(a_{\parallel,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Fpara_0_1@FvDV2018`	\(a_{\parallel,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Fpara_0_2@FvDV2018`	\(a_{\parallel,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Fpara_0_3@FvDV2018`	\(a_{\parallel,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Fpara_1_0@FvDV2018`	\(a_{\parallel,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Fpara_1_1@FvDV2018`	\(a_{\parallel,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Fpara_1_2@FvDV2018`	\(a_{\parallel,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fpara_0_0@FvDV2018`	\(b_{\parallel,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fpara_0_1@FvDV2018`	\(b_{\parallel,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fpara_0_2@FvDV2018`	\(b_{\parallel,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fpara_0_3@FvDV2018`	\(b_{\parallel,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fpara_1_0@FvDV2018`	\(b_{\parallel,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fpara_1_1@FvDV2018`	\(b_{\parallel,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Fpara_1_2@FvDV2018`	\(b_{\parallel,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fpara_0_0@FvDV2018`	\(c_{\parallel,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fpara_0_1@FvDV2018`	\(c_{\parallel,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fpara_0_2@FvDV2018`	\(c_{\parallel,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fpara_0_3@FvDV2018`	\(c_{\parallel,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fpara_1_0@FvDV2018`	\(c_{\parallel,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fpara_1_1@FvDV2018`	\(c_{\parallel,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Fpara_1_2@FvDV2018`	\(c_{\parallel,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Flong_0_0@FvDV2018`	\(a_{0,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Flong_0_1@FvDV2018`	\(a_{0,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Flong_0_2@FvDV2018`	\(a_{0,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Flong_0_3@FvDV2018`	\(a_{0,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Flong_1_0@FvDV2018`	\(a_{0,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Flong_1_1@FvDV2018`	\(a_{0,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Flong_1_2@FvDV2018`	\(a_{0,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Flong_0_0@FvDV2018`	\(b_{0,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Flong_0_1@FvDV2018`	\(b_{0,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Flong_0_2@FvDV2018`	\(b_{0,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Flong_0_3@FvDV2018`	\(b_{0,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Flong_1_0@FvDV2018`	\(b_{0,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Flong_1_1@FvDV2018`	\(b_{0,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Flong_1_2@FvDV2018`	\(b_{0,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Flong_0_0@FvDV2018`	\(c_{0,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Flong_0_1@FvDV2018`	\(c_{0,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Flong_0_2@FvDV2018`	\(c_{0,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Flong_0_3@FvDV2018`	\(c_{0,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Flong_1_0@FvDV2018`	\(c_{0,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Flong_1_1@FvDV2018`	\(c_{0,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Flong_1_2@FvDV2018`	\(c_{0,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Ftime_0_0@FvDV2018`	\(a_{t,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Ftime_0_1@FvDV2018`	\(a_{t,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Ftime_0_2@FvDV2018`	\(a_{t,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Ftime_0_3@FvDV2018`	\(a_{t,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Ftime_1_0@FvDV2018`	\(a_{t,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Ftime_1_1@FvDV2018`	\(a_{t,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::a^Ftime_1_2@FvDV2018`	\(a_{t,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Ftime_0_0@FvDV2018`	\(b_{t,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Ftime_0_1@FvDV2018`	\(b_{t,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Ftime_0_2@FvDV2018`	\(b_{t,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Ftime_0_3@FvDV2018`	\(b_{t,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Ftime_1_0@FvDV2018`	\(b_{t,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Ftime_1_1@FvDV2018`	\(b_{t,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::b^Ftime_1_2@FvDV2018`	\(b_{t,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Ftime_0_0@FvDV2018`	\(c_{t,0,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Ftime_0_1@FvDV2018`	\(c_{t,0,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Ftime_0_2@FvDV2018`	\(c_{t,0,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Ftime_0_3@FvDV2018`	\(c_{t,0,3}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Ftime_1_0@FvDV2018`	\(c_{t,1,0}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Ftime_1_1@FvDV2018`	\(c_{t,1,1}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)
`B->pipi::c^Ftime_1_2@FvDV2018`	\(c_{t,1,2}^{B \to \pi\pi,\mathrm{FvDV2018}}\)	\(\textrm{undefined}\)

Parameters in LCSR Calculations with Light-Meson LCDAs

Qualified Name	Representation	Default Value	Unit
`B->pi::zeta(NNLO)@DKMMO2008`	\(\zeta\mathrm{(NNLO)}\)	0.0	\(1\)
`B->pi::M^2@DKMMO2008`	\(M^2\,\mathrm{(LCSR)}\)	16.0	\(\textrm{GeV}^2\)
`B->pi::Mp^2@DKMMO2008`	\(M^2\,\mathrm{(SVZSR)}\)	5.0	\(\textrm{GeV}^2\)
`B->pi::mu@DKMMO2008`	\(\mu^{B \to \pi,\mathrm{DKMMO2008}}\)	3.0	\(\textrm{GeV}\)
`B->pi::s_0^+(0)@DKMMO2008`	\(s_0^{f_+}(q^2 = 0)\)	35.75	\(\textrm{GeV}^2\)
`B->pi::s_0^+'(0)@DKMMO2008`	\(s_0'^{f_+}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B->pi::s_0^+''(0)@DKMMO2008`	\(s_0''^{f_+}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B->pi::s_0^0(0)@DKMMO2008`	\(s_0^{f_0}(q^2 = 0)\)	36.0	\(\textrm{GeV}^2\)
`B->pi::s_0^0'(0)@DKMMO2008`	\(s_0'^{f_0}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B->pi::s_0^0''(0)@DKMMO2008`	\(s_0''^{f_0}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B->pi::s_0^T(0)@DKMMO2008`	\(s_0^{f_T}(q^2 = 0)\)	35.75	\(\textrm{GeV}^2\)
`B->pi::s_0^T'(0)@DKMMO2008`	\(s_0'^{f_T}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B->pi::s_0^T''(0)@DKMMO2008`	\(s_0''^{f_T}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B->pi::sp_0^B@DKMMO2008`	\(s_0^{f_B}\)	35.6	\(\textrm{GeV}^2\)
`B_s->K::zeta(NNLO)@DKMMO2008`	\(\zeta\mathrm{(NNLO)}\)	0.0	\(1\)
`B_s->K::M^2@DKMMO2008`	\(M^2\,\mathrm{(LCSR)}\)	16.0	\(\textrm{GeV}^2\)
`B_s->K::Mp^2@DKMMO2008`	\(M^2\,\mathrm{(SVZSR)}\)	5.0	\(\textrm{GeV}^2\)
`B_s->K::mu@DKMMO2008`	\(\mu^{B_s \to K,\mathrm{DKMMO2008}}\)	3.0	\(\textrm{GeV}\)
`B_s->K::s_0^+(0)@DKMMO2008`	\(s_0^{f_+}(q^2 = 0)\)	35.75	\(\textrm{GeV}^2\)
`B_s->K::s_0^+'(0)@DKMMO2008`	\(s_0'^{f_+}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B_s->K::s_0^+''(0)@DKMMO2008`	\(s_0''^{f_+}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B_s->K::s_0^0(0)@DKMMO2008`	\(s_0^{f_0}(q^2 = 0)\)	36.0	\(\textrm{GeV}^2\)
`B_s->K::s_0^0'(0)@DKMMO2008`	\(s_0'^{f_0}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B_s->K::s_0^0''(0)@DKMMO2008`	\(s_0''^{f_0}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B_s->K::s_0^T(0)@DKMMO2008`	\(s_0^{f_T}(q^2 = 0)\)	35.75	\(\textrm{GeV}^2\)
`B_s->K::s_0^T'(0)@DKMMO2008`	\(s_0'^{f_T}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B_s->K::s_0^T''(0)@DKMMO2008`	\(s_0''^{f_T}(q^2 = 0)\)	0.0	\(\textrm{GeV}^2\)
`B_s->K::sp_0^B@DKMMO2008`	\(s_0^{f_B}\)	35.6	\(\textrm{GeV}^2\)
`B->K^*::s_0@LCSR`	\(s_0^{B \to K^*, \mathrm{(LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B->K^*::M^2@LCSR`	\((M^2)^{B \to K^*, \mathrm{(LCSR)}}\)	1.0	\(\textrm{GeV}^2\)

Parameters in LCSR Calculations with B-meson LCDAs

Qualified Name	Representation	Default Value	Unit
`B->pi::s_0^+,0@B-LCSR`	\(s_{0_{+,0} }^{B \to \pi, \mathrm{(B-LCSR)}}\)	0.7	\(\textrm{GeV}^2\)
`B->pi::s_0^+,1@B-LCSR`	\(s_{0_{+,1} }^{B \to \pi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->pi::s_0^+/-,0@B-LCSR`	\(s_{0_{\pm,0} }^{B \to \pi, \mathrm{(B-LCSR)}}\)	0.7	\(\textrm{GeV}^2\)
`B->pi::s_0^+/-,1@B-LCSR`	\(s_{0_{\pm,1} }^{B \to \pi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->pi::s_0^T,0@B-LCSR`	\(s_{0_{T,0} }^{B \to \pi, \mathrm{(B-LCSR)}}\)	0.7	\(\textrm{GeV}^2\)
`B->pi::s_0^T,1@B-LCSR`	\(s_{0_{T,1} }^{B \to \pi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->pi::M^2@B-LCSR`	\((M^2)^{B \to \pi, \mathrm{(B-LCSR)}}\)	1.0	\(\textrm{GeV}^2\)
`B->pi::mu@B-LCSR`	\(\mu^{B \to \pi, \mathrm{(B-LCSR)}}\)	1.0	\(1\)
`B->K::s_0^+,0@B-LCSR`	\(s_{0_{+,0} }^{B \to K, \mathrm{(B-LCSR)}}\)	1.05	\(\textrm{GeV}^2\)
`B->K::s_0^+,1@B-LCSR`	\(s_{0_{+,1} }^{B \to K, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K::s_0^+/-,0@B-LCSR`	\(s_{0_{\pm,0} }^{B \to K, \mathrm{(B-LCSR)}}\)	1.05	\(\textrm{GeV}^2\)
`B->K::s_0^+/-,1@B-LCSR`	\(s_{0_{\pm,1} }^{B \to K, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K::s_0^T,0@B-LCSR`	\(s_{0_{T,0} }^{B \to K, \mathrm{(B-LCSR)}}\)	1.05	\(\textrm{GeV}^2\)
`B->K::s_0^T,1@B-LCSR`	\(s_{0_{T,1} }^{B \to K, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K::M^2@B-LCSR`	\((M^2)^{B \to K, \mathrm{(B-LCSR)}}\)	1.0	\(\textrm{GeV}^2\)
`B->K::mu@B-LCSR`	\(\mu^{B \to K, \mathrm{(B-LCSR)}}\)	1.0	\(1\)
`B_s->K::s_0^+,0@B-LCSR`	\(s_{0_{+,0} }^{B_s \to K, \mathrm{(B-LCSR)}}\)	1.05	\(\textrm{GeV}^2\)
`B_s->K::s_0^+,1@B-LCSR`	\(s_{0_{+,1} }^{B_s \to K, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K::s_0^+/-,0@B-LCSR`	\(s_{0_{\pm,0} }^{B_s \to K, \mathrm{(B-LCSR)}}\)	1.05	\(\textrm{GeV}^2\)
`B_s->K::s_0^+/-,1@B-LCSR`	\(s_{0_{\pm,1} }^{B_s \to K, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K::s_0^T,0@B-LCSR`	\(s_{0_{T,0} }^{B_s \to K, \mathrm{(B-LCSR)}}\)	1.05	\(\textrm{GeV}^2\)
`B_s->K::s_0^T,1@B-LCSR`	\(s_{0_{T,1} }^{B_s \to K, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K::M^2@B-LCSR`	\((M^2)^{B_s \to K, \mathrm{(B-LCSR)}}\)	1.0	\(\textrm{GeV}^2\)
`B_s->K::mu@B-LCSR`	\(\mu^{B_s \to K, \mathrm{(B-LCSR)}}\)	1.0	\(1\)
`B->D::s_0^+,0@B-LCSR`	\(s_{0_{+,0} }^{B \to D, \mathrm{(B-LCSR)}}\)	6.0	\(\textrm{GeV}^2\)
`B->D::s_0^+,1@B-LCSR`	\(s_{0_{+,1} }^{B \to D, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D::s_0^+/-,0@B-LCSR`	\(s_{0_{\pm,0} }^{B \to D, \mathrm{(B-LCSR)}}\)	6.0	\(\textrm{GeV}^2\)
`B->D::s_0^+/-,1@B-LCSR`	\(s_{0_{\pm,1} }^{B \to D, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D::s_0^T,0@B-LCSR`	\(s_{0_{T,0} }^{B \to D, \mathrm{(B-LCSR)}}\)	6.0	\(\textrm{GeV}^2\)
`B->D::s_0^T,1@B-LCSR`	\(s_{0_{T,1} }^{B \to D, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D::M^2@B-LCSR`	\((M^2)^{B \to D, \mathrm{(B-LCSR)}}\)	4.5	\(\textrm{GeV}^2\)
`B->D::mu@B-LCSR`	\(\mu^{B \to D, \mathrm{(B-LCSR)}}\)	2.1213	\(1\)
`B_s->D_s::s_0^+,0@B-LCSR`	\(s_{0_{+,0} }^{B_s \to D_s, \mathrm{(B-LCSR)}}\)	6.0	\(\textrm{GeV}^2\)
`B_s->D_s::s_0^+,1@B-LCSR`	\(s_{0_{+,1} }^{B_s \to D_s, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s::s_0^+/-,0@B-LCSR`	\(s_{0_{\pm,0} }^{B_s \to D_s, \mathrm{(B-LCSR)}}\)	6.0	\(\textrm{GeV}^2\)
`B_s->D_s::s_0^+/-,1@B-LCSR`	\(s_{0_{\pm,1} }^{B_s \to D_s, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s::s_0^T,0@B-LCSR`	\(s_{0_{T,0} }^{B_s \to D_s, \mathrm{(B-LCSR)}}\)	6.0	\(\textrm{GeV}^2\)
`B_s->D_s::s_0^T,1@B-LCSR`	\(s_{0_{T,1} }^{B_s \to D_s, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s::M^2@B-LCSR`	\((M^2)^{B_s \to D_s, \mathrm{(B-LCSR)}}\)	4.5	\(\textrm{GeV}^2\)
`B_s->D_s::mu@B-LCSR`	\(\mu^{B_s \to D_s, \mathrm{(B-LCSR)}}\)	2.1213	\(1\)
`B->rho::s_0^A1,0@B-LCSR`	\(s_{0_{A_1,0} }^{B \to \rho \mathrm{(B-LCSR)}}\)	1.6	\(\textrm{GeV}^2\)
`B->rho::s_0^A1,1@B-LCSR`	\(s_{0_{A_1,1} }^{B \to \rho \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->rho::s_0^A2,0@B-LCSR`	\(s_{0_{A_2,0} }^{B \to \rho \mathrm{(B-LCSR)}}\)	1.6	\(\textrm{GeV}^2\)
`B->rho::s_0^A2,1@B-LCSR`	\(s_{0_{A_2,1} }^{B \to \rho \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->rho::s_0^A30,0@B-LCSR`	\(s_{0_{A_{30},0} }^{B \to \rho \mathrm{(B-LCSR)}}\)	1.6	\(\textrm{GeV}^2\)
`B->rho::s_0^A30,1@B-LCSR`	\(s_{0_{A_{30},1} }^{B \to \rho \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->rho::s_0^V,0@B-LCSR`	\(s_{0_{V,0} }^{B \to \rho \mathrm{(B-LCSR)}}\)	1.6	\(\textrm{GeV}^2\)
`B->rho::s_0^V,1@B-LCSR`	\(s_{0_{V,1} }^{B \to \rho \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->rho::s_0^T1,0@B-LCSR`	\(s_{0_{T_1,0} }^{B \to \rho \mathrm{(B-LCSR)}}\)	1.6	\(\textrm{GeV}^2\)
`B->rho::s_0^T1,1@B-LCSR`	\(s_{0_{T_1,1} }^{B \to \rho \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->rho::s_0^T23A,0@B-LCSR`	\(s_{0_{T_{23A},0} }^{B \to \rho \mathrm{(B-LCSR)}}\)	1.6	\(\textrm{GeV}^2\)
`B->rho::s_0^T23A,1@B-LCSR`	\(s_{0_{T_{23A},1} }^{B \to \rho \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->rho::s_0^T23B,0@B-LCSR`	\(s_{0_{T_{23B},0} }^{B \to \rho \mathrm{(B-LCSR)}}\)	1.6	\(\textrm{GeV}^2\)
`B->rho::s_0^T23B,1@B-LCSR`	\(s_{0_{T_{23B},1} }^{B \to \rho \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->rho::M^2@B-LCSR`	\((M^2)^{B \to \rho \mathrm{(B-LCSR)}}\)	1.0	\(\textrm{GeV}^2\)
`B->rho::mu@B-LCSR`	\(\mu^{B \to \rho \mathrm{(B-LCSR)}}\)	1.0	\(1\)
`B->K^*::s_0^A1,0@B-LCSR`	\(s_{0_{A_1,0}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B->K^*::s_0^A1,1@B-LCSR`	\(s_{0_{A_1,1}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K^*::s_0^A2,0@B-LCSR`	\(s_{0_{A_2,0}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B->K^*::s_0^A2,1@B-LCSR`	\(s_{0_{A_2,1}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K^*::s_0^A30,0@B-LCSR`	\(s_{0_{A_{30},0}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B->K^*::s_0^A30,1@B-LCSR`	\(s_{0_{A_{30},1}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K^*::s_0^V,0@B-LCSR`	\(s_{0_{V,0}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B->K^*::s_0^V,1@B-LCSR`	\(s_{0_{V,1}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K^*::s_0^T1,0@B-LCSR`	\(s_{0_{T_1,0}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B->K^*::s_0^T1,1@B-LCSR`	\(s_{0_{T_1,1}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K^*::s_0^T23A,0@B-LCSR`	\(s_{0_{T_{23A},0}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B->K^*::s_0^T23A,1@B-LCSR`	\(s_{0_{T_{23A},1}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K^*::s_0^T23B,0@B-LCSR`	\(s_{0_{T_{23B},0}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B->K^*::s_0^T23B,1@B-LCSR`	\(s_{0_{T_{23B},1}}^{B \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->K^*::M^2@B-LCSR`	\((M^2)^{B \to K^* \mathrm{(B-LCSR)}}\)	1.0	\(\textrm{GeV}^2\)
`B->K^*::mu@B-LCSR`	\(\mu^{B \to K^* \mathrm{(B-LCSR)}}\)	1.0	\(1\)
`B_s->K^*::s_0^A1,0@B-LCSR`	\(s_{0_{A_1,0}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->K^*::s_0^A1,1@B-LCSR`	\(s_{0_{A_1,1}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K^*::s_0^A2,0@B-LCSR`	\(s_{0_{A_2,0}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->K^*::s_0^A2,1@B-LCSR`	\(s_{0_{A_2,1}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K^*::s_0^A30,0@B-LCSR`	\(s_{0_{A_{30},0}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->K^*::s_0^A30,1@B-LCSR`	\(s_{0_{A_{30},1}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K^*::s_0^V,0@B-LCSR`	\(s_{0_{V,0}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->K^*::s_0^V,1@B-LCSR`	\(s_{0_{V,1}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K^*::s_0^T1,0@B-LCSR`	\(s_{0_{T_1,0}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->K^*::s_0^T1,1@B-LCSR`	\(s_{0_{T_1,1}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K^*::s_0^T23A,0@B-LCSR`	\(s_{0_{T_{23A},0}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->K^*::s_0^T23A,1@B-LCSR`	\(s_{0_{T_{23A},1}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K^*::s_0^T23B,0@B-LCSR`	\(s_{0_{T_{23B},0}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->K^*::s_0^T23B,1@B-LCSR`	\(s_{0_{T_{23B},1}}^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->K^*::M^2@B-LCSR`	\((M^2)^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.0	\(\textrm{GeV}^2\)
`B_s->K^*::mu@B-LCSR`	\(\mu^{B_s \to K^*, \mathrm{(B-LCSR)}}\)	1.0	\(1\)
`B->D^*::s_0^A1,0@B-LCSR`	\(s_{0_{A_1,0}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B->D^*::s_0^A1,1@B-LCSR`	\(s_{0_{A_1,1}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D^*::s_0^A2,0@B-LCSR`	\(s_{0_{A_2,0}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B->D^*::s_0^A2,1@B-LCSR`	\(s_{0_{A_2,1}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D^*::s_0^A30,0@B-LCSR`	\(s_{0_{A_{30},0}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B->D^*::s_0^A30,1@B-LCSR`	\(s_{0_{A_{30},1}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D^*::s_0^V,0@B-LCSR`	\(s_{0_{V,0}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B->D^*::s_0^V,1@B-LCSR`	\(s_{0_{V,1}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D^*::s_0^T1,0@B-LCSR`	\(s_{0_{T_1,0}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B->D^*::s_0^T1,1@B-LCSR`	\(s_{0_{T_1,1}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D^*::s_0^T23A,0@B-LCSR`	\(s_{0_{T_{23A},0}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B->D^*::s_0^T23A,1@B-LCSR`	\(s_{0_{T_{23A},1}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D^*::s_0^T23B,0@B-LCSR`	\(s_{0_{T_{23B},0}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B->D^*::s_0^T23B,1@B-LCSR`	\(s_{0_{T_{23B},1}}^{B \to D^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B->D^*::M^2@B-LCSR`	\((M^2)^{B \to D^*, \mathrm{(B-LCSR)}}\)	4.5	\(\textrm{GeV}^2\)
`B->D^*::mu@B-LCSR`	\(\mu^{B \to D^*, \mathrm{(B-LCSR)}}\)	2.1213	\(1\)
`B_s->D_s^*::s_0^A1,0@B-LCSR`	\(s_{0_{A_1,0}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B_s->D_s^*::s_0^A1,1@B-LCSR`	\(s_{0_{A_1,1}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s^*::s_0^A2,0@B-LCSR`	\(s_{0_{A_2,0}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B_s->D_s^*::s_0^A2,1@B-LCSR`	\(s_{0_{A_2,1}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s^*::s_0^A30,0@B-LCSR`	\(s_{0_{A_{30},0}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B_s->D_s^*::s_0^A30,1@B-LCSR`	\(s_{0_{A_{30},1}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s^*::s_0^V,0@B-LCSR`	\(s_{0_{V,0}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B_s->D_s^*::s_0^V,1@B-LCSR`	\(s_{0_{V,1}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s^*::s_0^T1,0@B-LCSR`	\(s_{0_{T_1,0}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B_s->D_s^*::s_0^T1,1@B-LCSR`	\(s_{0_{T_1,1}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s^*::s_0^T23A,0@B-LCSR`	\(s_{0_{T_{23A},0}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B_s->D_s^*::s_0^T23A,1@B-LCSR`	\(s_{0_{T_{23A},1}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s^*::s_0^T23B,0@B-LCSR`	\(s_{0_{T_{23B},0}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	8.0	\(\textrm{GeV}^2\)
`B_s->D_s^*::s_0^T23B,1@B-LCSR`	\(s_{0_{T_{23B},1}}^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->D_s^*::M^2@B-LCSR`	\((M^2)^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	4.5	\(\textrm{GeV}^2\)
`B_s->D_s^*::mu@B-LCSR`	\(\mu^{B_s \to D_s^*, \mathrm{(B-LCSR)}}\)	2.1213	\(1\)
`B_s->phi::s_0^A1,0@B-LCSR`	\(s_{0_{A_1,0} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->phi::s_0^A1,1@B-LCSR`	\(s_{0_{A_1,1} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->phi::s_0^A2,0@B-LCSR`	\(s_{0_{A_2,0} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->phi::s_0^A2,1@B-LCSR`	\(s_{0_{A_2,1} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->phi::s_0^A30,0@B-LCSR`	\(s_{0_{A_{30},0} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->phi::s_0^A30,1@B-LCSR`	\(s_{0_{A_{30},1} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->phi::s_0^V,0@B-LCSR`	\(s_{0_{V,0} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->phi::s_0^V,1@B-LCSR`	\(s_{0_{V,1} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->phi::s_0^T1,0@B-LCSR`	\(s_{0_{T_1,0} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->phi::s_0^T1,1@B-LCSR`	\(s_{0_{T_1,1} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->phi::s_0^T23A,0@B-LCSR`	\(s_{0_{T_{23A},0} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->phi::s_0^T23A,1@B-LCSR`	\(s_{0_{T_{23A},1} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->phi::s_0^T23B,0@B-LCSR`	\(s_{0_{T_{23B},0} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.7	\(\textrm{GeV}^2\)
`B_s->phi::s_0^T23B,1@B-LCSR`	\(s_{0_{T_{23B},1} }^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	0.0	\(1\)
`B_s->phi::M^2@B-LCSR`	\((M^2)^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.0	\(\textrm{GeV}^2\)
`B_s->phi::mu@B-LCSR`	\(\mu^{B_s \to \phi, \mathrm{(B-LCSR)}}\)	1.0	\(1\)

Dispersive bounds in the OPE for b -> s currents

Qualified Name	Representation	Default Value	Unit
`b->s::chiOPE[0^+_V]`	\(\chi_V^{J=0}\|{}_\textrm{OPE}\)	0.0142	\(1\)
`b->s::chiOPE[1^-_V]`	\(\chi_V^{J=1}\|{}_\textrm{OPE}\)	0.00068	\(\textrm{GeV}^{-2}\)
`b->s::chiOPE[0^-_A]`	\(\chi_A^{J=0}\|{}_\textrm{OPE}\)	0.0157	\(1\)
`b->s::chiOPE[1^+_A]`	\(\chi_A^{J=1}\|{}_\textrm{OPE}\)	0.00064	\(\textrm{GeV}^{-2}\)
`b->s::chiOPE[1^-_T]`	\(\chi_T^{J=1}\|{}_\textrm{OPE}\)	0.000455	\(\textrm{GeV}^{-2}\)
`b->s::chiOPE[1^+_T5]`	\(\chi_{T_5}^{J=1}\|{}_\textrm{OPE}\)	0.000424	\(\textrm{GeV}^{-2}\)

Dispersive bounds in the OPE for c -> s currents

Qualified Name	Representation	Default Value	Unit
`c->s::chiOPE[0^+_V]`	\(\chi_V^{J=0}\|{}_\textrm{OPE}\)	0.0138	\(1\)
`c->s::chiOPE[1^-_V]`	\(\chi_V^{J=1}\|{}_\textrm{OPE}\)	0.00935	\(\textrm{GeV}^{-2}\)
`c->s::chiOPE[0^-_A]`	\(\chi_A^{J=0}\|{}_\textrm{OPE}\)	0.0251	\(1\)
`c->s::chiOPE[1^+_A]`	\(\chi_A^{J=1}\|{}_\textrm{OPE}\)	0.00603	\(\textrm{GeV}^{-2}\)
`c->s::chiOPE[1^-_T]`	\(\chi_T^{J=1}\|{}_\textrm{OPE}\)	0.00689	\(\textrm{GeV}^{-2}\)
`c->s::chiOPE[1^+_T5]`	\(\chi_{T_5}^{J=1}\|{}_\textrm{OPE}\)	0.00541	\(\textrm{GeV}^{-2}\)

Parameters in \(D\to P\) Form Factor Parametrizations

Qualified Name	Representation	Default Value	Unit
`D->pi::alpha^f+_0@BSZ2015`	\(\alpha_{f+,0}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->pi::alpha^f+_1@BSZ2015`	\(\alpha_{f+,1}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->pi::alpha^f+_2@BSZ2015`	\(\alpha_{f+,2}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->pi::alpha^f0_0@BSZ2015`	\(\alpha_{f0,0}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->pi::alpha^f0_1@BSZ2015`	\(\alpha_{f0,1}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->pi::alpha^f0_2@BSZ2015`	\(\alpha_{f0,2}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->pi::alpha^fT_0@BSZ2015`	\(\alpha_{fT,0}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->pi::alpha^fT_1@BSZ2015`	\(\alpha_{fT,1}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->pi::alpha^fT_2@BSZ2015`	\(\alpha_{fT,2}^{D \to \pi,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^f+_0@BSZ2015`	\(\alpha_{f+,0}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^f+_1@BSZ2015`	\(\alpha_{f+,1}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^f+_2@BSZ2015`	\(\alpha_{f+,2}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^f0_0@BSZ2015`	\(\alpha_{f0,0}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^f0_1@BSZ2015`	\(\alpha_{f0,1}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^f0_2@BSZ2015`	\(\alpha_{f0,2}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^fT_0@BSZ2015`	\(\alpha_{fT,0}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^fT_1@BSZ2015`	\(\alpha_{fT,1}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D_s->K::alpha^fT_2@BSZ2015`	\(\alpha_{fT,2}^{D_s \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::a^f+_0@BFW2010`	\(a_0^{f+,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f+_1@BFW2010`	\(a_1^{f+,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f+_2@BFW2010`	\(a_2^{f+,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f+_3@BFW2010`	\(a_3^{f+,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f+_4@BFW2010`	\(a_4^{f+,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f0_0@BFW2010`	\(a_0^{f0,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f0_1@BFW2010`	\(a_1^{f0,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f0_2@BFW2010`	\(a_2^{f0,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f0_3@BFW2010`	\(a_3^{f0,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^f0_4@BFW2010`	\(a_4^{f0,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^fT_0@BFW2010`	\(a_0^{fT,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^fT_1@BFW2010`	\(a_1^{fT,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^fT_2@BFW2010`	\(a_2^{fT,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^fT_3@BFW2010`	\(a_3^{fT,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::a^fT_4@BFW2010`	\(a_4^{fT,D \to K,\mathrm{BFW2010}}\)	0.0	\(1\)
`D->K::tp@BFW2010`	\(t_+^{D\to K^*}\)	5.56488	\(\textrm{GeV}\)
`D->K::t0@BFW2010`	\(t_0^{D\to K}\)	1.04	\(\textrm{GeV}\)
`D->K::alpha^f+_0@BSZ2015`	\(\alpha_{f+,0}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::alpha^f+_1@BSZ2015`	\(\alpha_{f+,1}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::alpha^f+_2@BSZ2015`	\(\alpha_{f+,2}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::alpha^f0_0@BSZ2015`	\(\alpha_{f0,0}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::alpha^f0_1@BSZ2015`	\(\alpha_{f0,1}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::alpha^f0_2@BSZ2015`	\(\alpha_{f0,2}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::alpha^fT_0@BSZ2015`	\(\alpha_{fT,0}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::alpha^fT_1@BSZ2015`	\(\alpha_{fT,1}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)
`D->K::alpha^fT_2@BSZ2015`	\(\alpha_{fT,2}^{D \to K,\mathrm{BSZ2015}}\)	0.0	\(1\)

Parameters in \({}^1/_2{}^+ \to {}^1/_2{}^+\) Form Factor Parametrizations

Qualified Name	Representation	Default Value	Unit
`Lambda_b->Lambda::f_0^V(0)@BFvD2014`	\(f_0^{V,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}(0)\)	0.28	\(1\)
`Lambda_b->Lambda::b_1_0^V@BFvD2014`	\(b_{1,0}^{V,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}\)	-11.0	\(\textrm{undefined}\)
`Lambda_b->Lambda::f_0^A(0)@BFvD2014`	\(f_0^{A,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}(0)\)	0.27	\(\textrm{undefined}\)
`Lambda_b->Lambda::b_1_0^A@BFvD2014`	\(b_{1,0}^{A,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}\)	-8.0	\(\textrm{undefined}\)
`Lambda_b->Lambda::f_perp^V(0)@BFvD2014`	\(f_{\perp}^{V,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}(0)\)	0.28	\(\textrm{undefined}\)
`Lambda_b->Lambda::b_1_perp^V@BFvD2014`	\(b_{1,\perp}^{V,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}\)	-11.0	\(\textrm{undefined}\)
`Lambda_b->Lambda::f_perp^A(0)@BFvD2014`	\(f_{\perp}^{A,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}(0)\)	0.3	\(\textrm{undefined}\)
`Lambda_b->Lambda::b_1_perp^A@BFvD2014`	\(b_{1,\perp}^{A,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}\)	-6.0	\(\textrm{undefined}\)
`Lambda_b->Lambda::sigma_perp^V@BFvD2014`	\(\sigma_{\perp}^{V,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambda::sigma_perp^A@BFvD2014`	\(\sigma_{\perp}^{A,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambda::sigma_long^V@BFvD2014`	\(\sigma_{0}^{V,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambda::sigma_long^A@BFvD2014`	\(\sigma_{0}^{A,\Lambda_b \to \Lambda ,\mathrm{BFvD2014}}\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambda::a_0_time^V@DM2016`	\(a_{t,0}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.373	\(1\)
`Lambda_b->Lambda::a_1_time^V@DM2016`	\(a_{t,1}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-0.939	\(1\)
`Lambda_b->Lambda::a_2_time^V@DM2016`	\(a_{t,2}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_0_time^A@DM2016`	\(a_{t,0}^{A,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.403	\(1\)
`Lambda_b->Lambda::a_1_time^A@DM2016`	\(a_{t,1}^{A,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-1.029	\(1\)
`Lambda_b->Lambda::a_2_time^A@DM2016`	\(a_{t,2}^{A,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_0_long^V@DM2016`	\(a_{0,0}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.422	\(1\)
`Lambda_b->Lambda::a_1_long^V@DM2016`	\(a_{0,1}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-1.139	\(1\)
`Lambda_b->Lambda::a_2_long^V@DM2016`	\(a_{0,2}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_0_perp^V@DM2016`	\(a_{\perp,0}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.518	\(1\)
`Lambda_b->Lambda::a_1_perp^V@DM2016`	\(a_{\perp,1}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-1.35	\(1\)
`Lambda_b->Lambda::a_2_perp^V@DM2016`	\(a_{\perp,2}^{V,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_0_long^A@DM2016`	\(a_{0,0}^{A,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.356	\(1\)
`Lambda_b->Lambda::a_1_long^A@DM2016`	\(a_{0,1}^{A,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-1.061	\(1\)
`Lambda_b->Lambda::a_2_long^A@DM2016`	\(a_{0,2}^{A,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_1_perp^A@DM2016`	\(a_{\perp,1}^{A,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-1.136	\(1\)
`Lambda_b->Lambda::a_2_perp^A@DM2016`	\(a_{\perp,2}^{A,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_0_long^T@DM2016`	\(a_{0,0}^{T,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.496	\(1\)
`Lambda_b->Lambda::a_1_long^T@DM2016`	\(a_{0,1}^{T,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-1.128	\(1\)
`Lambda_b->Lambda::a_2_long^T@DM2016`	\(a_{0,2}^{T,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_0_perp^T@DM2016`	\(a_{\perp,0}^{T,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.388	\(1\)
`Lambda_b->Lambda::a_1_perp^T@DM2016`	\(a_{\perp,1}^{T,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-0.962	\(1\)
`Lambda_b->Lambda::a_2_perp^T@DM2016`	\(a_{\perp,2}^{T,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_0_long^T5@DM2016`	\(a_{0,0}^{T5,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.34	\(1\)
`Lambda_b->Lambda::a_1_long^T5@DM2016`	\(a_{0,1}^{T5,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-0.77	\(1\)
`Lambda_b->Lambda::a_2_long^T5@DM2016`	\(a_{0,2}^{T5,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_b->Lambda::a_1_perp^T5@DM2016`	\(a_{\perp,1}^{T5,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	-0.801	\(1\)
`Lambda_b->Lambda::a_2_perp^T5@DM2016`	\(a_{\perp,2}^{T5,\Lambda_b \to \Lambda ,\mathrm{DM2016}}\)	0.0	\(1\)
`Lambda_c->Lambda::a_0_time^V@DM2016`	\(a_{t,0}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_time^V@DM2016`	\(a_{t,1}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_time^V@DM2016`	\(a_{t,2}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_time^V@DM2016`	\(a_{t,3}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_time^A@DM2016`	\(a_{t,0}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_time^A@DM2016`	\(a_{t,1}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_time^A@DM2016`	\(a_{t,2}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_time^A@DM2016`	\(a_{t,3}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_time^T@DM2016`	\(a_{t,0}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_time^T@DM2016`	\(a_{t,1}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_time^T@DM2016`	\(a_{t,2}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_time^T@DM2016`	\(a_{t,3}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_time^T5@DM2016`	\(a_{t,0}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_time^T5@DM2016`	\(a_{t,1}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_time^T5@DM2016`	\(a_{t,2}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_time^T5@DM2016`	\(a_{t,3}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_long^V@DM2016`	\(a_{0,0}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_long^V@DM2016`	\(a_{0,1}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_long^V@DM2016`	\(a_{0,2}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_long^V@DM2016`	\(a_{0,3}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_long^A@DM2016`	\(a_{0,0}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_long^A@DM2016`	\(a_{0,1}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_long^A@DM2016`	\(a_{0,2}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_long^A@DM2016`	\(a_{0,3}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_long^T@DM2016`	\(a_{0,0}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_long^T@DM2016`	\(a_{0,1}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_long^T@DM2016`	\(a_{0,2}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_long^T@DM2016`	\(a_{0,3}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_long^T5@DM2016`	\(a_{0,0}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_long^T5@DM2016`	\(a_{0,1}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_long^T5@DM2016`	\(a_{0,2}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_long^T5@DM2016`	\(a_{0,3}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_perp^V@DM2016`	\(a_{\perp,0}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_perp^V@DM2016`	\(a_{\perp,1}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_perp^V@DM2016`	\(a_{\perp,2}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_perp^V@DM2016`	\(a_{\perp,3}^{V,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_perp^A@DM2016`	\(a_{\perp,0}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_perp^A@DM2016`	\(a_{\perp,1}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_perp^A@DM2016`	\(a_{\perp,2}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_perp^A@DM2016`	\(a_{\perp,3}^{A,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_perp^T@DM2016`	\(a_{\perp,0}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_perp^T@DM2016`	\(a_{\perp,1}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_perp^T@DM2016`	\(a_{\perp,2}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_perp^T@DM2016`	\(a_{\perp,3}^{T,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_0_perp^T5@DM2016`	\(a_{\perp,0}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_1_perp^T5@DM2016`	\(a_{\perp,1}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_2_perp^T5@DM2016`	\(a_{\perp,2}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a_3_perp^T5@DM2016`	\(a_{\perp,3}^{T5,\Lambda_c \to \Lambda ,\mathrm{DM2016}}\)	-0.0	\(1\)
`Lambda_b->Lambda::tp_a@BMRvD2022`	\(t_+^{A, \Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	33.327529	\(\textrm{GeV}^2\)
`Lambda_b->Lambda::tp_v@BMRvD2022`	\(t_+^{V, \Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	33.327529	\(\textrm{GeV}^2\)
`Lambda_b->Lambda::t0@BMRvD2022`	\(t_0^{\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	20.284457646	\(\textrm{GeV}^2\)
`Lambda_b->Lambda::a^(t,V)_1@BMRvD2022`	\(a_1^{t,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.4896605330254244	\(1\)
`Lambda_b->Lambda::a^(t,V)_2@BMRvD2022`	\(a_2^{t,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.5911436400432727	\(1\)
`Lambda_b->Lambda::a^(t,V)_3@BMRvD2022`	\(a_3^{t,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(t,V)_4@BMRvD2022`	\(a_4^{t,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(0,V)_0@BMRvD2022`	\(a_0^{0,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	-0.0970706117909448	\(1\)
`Lambda_b->Lambda::a^(0,V)_1@BMRvD2022`	\(a_1^{0,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.20575657000390518	\(1\)
`Lambda_b->Lambda::a^(0,V)_2@BMRvD2022`	\(a_2^{0,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.25919997450741056	\(1\)
`Lambda_b->Lambda::a^(0,V)_3@BMRvD2022`	\(a_3^{0,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(0,V)_4@BMRvD2022`	\(a_4^{0,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(perp,V)_0@BMRvD2022`	\(a_0^{\perp,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	-0.17003698967164574	\(1\)
`Lambda_b->Lambda::a^(perp,V)_1@BMRvD2022`	\(a_1^{\perp,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.28214533680157095	\(1\)
`Lambda_b->Lambda::a^(perp,V)_2@BMRvD2022`	\(a_2^{\perp,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.41966553547525054	\(1\)
`Lambda_b->Lambda::a^(perp,V)_3@BMRvD2022`	\(a_3^{\perp,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(perp,V)_4@BMRvD2022`	\(a_4^{\perp,V,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(t,A)_1@BMRvD2022`	\(a_1^{t,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.6331868983113765	\(1\)
`Lambda_b->Lambda::a^(t,A)_2@BMRvD2022`	\(a_2^{t,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.7383188104767887	\(1\)
`Lambda_b->Lambda::a^(t,A)_3@BMRvD2022`	\(a_3^{t,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(t,A)_4@BMRvD2022`	\(a_4^{t,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(0,A)_0@BMRvD2022`	\(a_0^{0,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	-0.09945446605295541	\(1\)
`Lambda_b->Lambda::a^(0,A)_1@BMRvD2022`	\(a_1^{0,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.2671743834190154	\(1\)
`Lambda_b->Lambda::a^(0,A)_2@BMRvD2022`	\(a_2^{0,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.29833216513104743	\(1\)
`Lambda_b->Lambda::a^(0,A)_3@BMRvD2022`	\(a_3^{0,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(0,A)_4@BMRvD2022`	\(a_4^{0,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(perp,A)_1@BMRvD2022`	\(a_1^{\perp,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.5570315792575746	\(1\)
`Lambda_b->Lambda::a^(perp,A)_2@BMRvD2022`	\(a_2^{\perp,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.6774966813204484	\(1\)
`Lambda_b->Lambda::a^(perp,A)_3@BMRvD2022`	\(a_3^{\perp,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(perp,A)_4@BMRvD2022`	\(a_4^{\perp,A,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(0,T)_0@BMRvD2022`	\(a_0^{0,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	-0.06801094642008053	\(1\)
`Lambda_b->Lambda::a^(0,T)_1@BMRvD2022`	\(a_1^{0,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	-0.08249464693203802	\(1\)
`Lambda_b->Lambda::a^(0,T)_2@BMRvD2022`	\(a_2^{0,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.06002298912894147	\(1\)
`Lambda_b->Lambda::a^(0,T)_3@BMRvD2022`	\(a_3^{0,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(0,T)_4@BMRvD2022`	\(a_4^{0,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(perp,T)_1@BMRvD2022`	\(a_1^{\perp,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.32440585925329807	\(1\)
`Lambda_b->Lambda::a^(perp,T)_2@BMRvD2022`	\(a_2^{\perp,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.383016678864083	\(1\)
`Lambda_b->Lambda::a^(perp,T)_3@BMRvD2022`	\(a_3^{\perp,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(perp,T)_4@BMRvD2022`	\(a_4^{\perp,T,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(0,T5)_1@BMRvD2022`	\(a_1^{0,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.5425990441545133	\(1\)
`Lambda_b->Lambda::a^(0,T5)_2@BMRvD2022`	\(a_2^{0,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.5805380689598787	\(1\)
`Lambda_b->Lambda::a^(0,T5)_3@BMRvD2022`	\(a_3^{0,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(0,T5)_4@BMRvD2022`	\(a_4^{0,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(perp,T5)_0@BMRvD2022`	\(a_0^{\perp,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	-0.1352023399864286	\(1\)
`Lambda_b->Lambda::a^(perp,T5)_1@BMRvD2022`	\(a_1^{\perp,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.3800478173547997	\(1\)
`Lambda_b->Lambda::a^(perp,T5)_2@BMRvD2022`	\(a_2^{\perp,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.4226660980547705	\(1\)
`Lambda_b->Lambda::a^(perp,T5)_3@BMRvD2022`	\(a_3^{\perp,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_b->Lambda::a^(perp,T5)_4@BMRvD2022`	\(a_4^{\perp,T5,\Lambda_b \to \Lambda ,\mathrm{BMRvD2022}}\)	0.0	\(1\)
`Lambda_c->Lambda::tp_a@BMRvD2022`	\(t_+^{A, \Lambda_c \to \Lambda ,\mathrm{BMRvD2022}}\)	6.26	\(\textrm{GeV}^2\)
`Lambda_c->Lambda::tp_v@BMRvD2022`	\(t_+^{V, \Lambda_c \to \Lambda ,\mathrm{BMRvD2022}}\)	5.6027	\(\textrm{GeV}^2\)
`Lambda_c->Lambda::t0@BMRvD2022`	\(t_0^{\Lambda_c \to \Lambda ,\mathrm{BMRvD2022}}\)	3.0	\(\textrm{GeV}^2\)
`Lambda_c->Lambda::a^(t,V)_0@BMRvD2022`	\(a_0^{\mathrm{t}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,V)_1@BMRvD2022`	\(a_1^{\mathrm{t}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,V)_2@BMRvD2022`	\(a_2^{\mathrm{t}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,V)_3@BMRvD2022`	\(a_3^{\mathrm{t}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,V)_4@BMRvD2022`	\(a_4^{\mathrm{t}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,A)_0@BMRvD2022`	\(a_0^{\mathrm{t}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,A)_1@BMRvD2022`	\(a_1^{\mathrm{t}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,A)_2@BMRvD2022`	\(a_2^{\mathrm{t}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,A)_3@BMRvD2022`	\(a_3^{\mathrm{t}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,A)_4@BMRvD2022`	\(a_4^{\mathrm{t}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T)_0@BMRvD2022`	\(a_0^{\mathrm{t}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T)_1@BMRvD2022`	\(a_1^{\mathrm{t}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T)_2@BMRvD2022`	\(a_2^{\mathrm{t}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T)_3@BMRvD2022`	\(a_3^{\mathrm{t}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T)_4@BMRvD2022`	\(a_4^{\mathrm{t}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T5)_0@BMRvD2022`	\(a_0^{\mathrm{t}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T5)_1@BMRvD2022`	\(a_1^{\mathrm{t}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T5)_2@BMRvD2022`	\(a_2^{\mathrm{t}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T5)_3@BMRvD2022`	\(a_3^{\mathrm{t}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(t,T5)_4@BMRvD2022`	\(a_4^{\mathrm{t}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,V)_0@BMRvD2022`	\(a_0^{\mathrm{0}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,V)_1@BMRvD2022`	\(a_1^{\mathrm{0}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,V)_2@BMRvD2022`	\(a_2^{\mathrm{0}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,V)_3@BMRvD2022`	\(a_3^{\mathrm{0}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,V)_4@BMRvD2022`	\(a_4^{\mathrm{0}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,A)_0@BMRvD2022`	\(a_0^{\mathrm{0}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,A)_1@BMRvD2022`	\(a_1^{\mathrm{0}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,A)_2@BMRvD2022`	\(a_2^{\mathrm{0}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,A)_3@BMRvD2022`	\(a_3^{\mathrm{0}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,A)_4@BMRvD2022`	\(a_4^{\mathrm{0}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T)_0@BMRvD2022`	\(a_0^{\mathrm{0}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T)_1@BMRvD2022`	\(a_1^{\mathrm{0}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T)_2@BMRvD2022`	\(a_2^{\mathrm{0}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T)_3@BMRvD2022`	\(a_3^{\mathrm{0}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T)_4@BMRvD2022`	\(a_4^{\mathrm{0}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T5)_0@BMRvD2022`	\(a_0^{\mathrm{0}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T5)_1@BMRvD2022`	\(a_1^{\mathrm{0}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T5)_2@BMRvD2022`	\(a_2^{\mathrm{0}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T5)_3@BMRvD2022`	\(a_3^{\mathrm{0}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(0,T5)_4@BMRvD2022`	\(a_4^{\mathrm{0}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,V)_0@BMRvD2022`	\(a_0^{\mathrm{perp}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,V)_1@BMRvD2022`	\(a_1^{\mathrm{perp}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,V)_2@BMRvD2022`	\(a_2^{\mathrm{perp}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,V)_3@BMRvD2022`	\(a_3^{\mathrm{perp}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,V)_4@BMRvD2022`	\(a_4^{\mathrm{perp}, \mathrm{V}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,A)_0@BMRvD2022`	\(a_0^{\mathrm{perp}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,A)_1@BMRvD2022`	\(a_1^{\mathrm{perp}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,A)_2@BMRvD2022`	\(a_2^{\mathrm{perp}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,A)_3@BMRvD2022`	\(a_3^{\mathrm{perp}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,A)_4@BMRvD2022`	\(a_4^{\mathrm{perp}, \mathrm{A}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T)_0@BMRvD2022`	\(a_0^{\mathrm{perp}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T)_1@BMRvD2022`	\(a_1^{\mathrm{perp}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T)_2@BMRvD2022`	\(a_2^{\mathrm{perp}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T)_3@BMRvD2022`	\(a_3^{\mathrm{perp}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T)_4@BMRvD2022`	\(a_4^{\mathrm{perp}, \mathrm{T}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T5)_0@BMRvD2022`	\(a_0^{\mathrm{perp}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T5)_1@BMRvD2022`	\(a_1^{\mathrm{perp}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T5)_2@BMRvD2022`	\(a_2^{\mathrm{perp}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T5)_3@BMRvD2022`	\(a_3^{\mathrm{perp}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_c->Lambda::a^(perp,T5)_4@BMRvD2022`	\(a_4^{\mathrm{perp}, \mathrm{T5}, \Lambda_c\to\Lambda, \mathrm{BMRvD2022}}\)	-0.0	\(1\)
`Lambda_b->Lambda_c::a_0_time^V@DKMR2017`	\(a_{t,0}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.74392566003686	\(1\)
`Lambda_b->Lambda_c::a_1_time^V@DKMR2017`	\(a_{t,1}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-4.6476511382467	\(1\)
`Lambda_b->Lambda_c::a_2_time^V@DKMR2017`	\(a_{t,2}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_0_time^A@DKMR2017`	\(a_{t,0}^{A,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.73960499809758	\(1\)
`Lambda_b->Lambda_c::a_1_time^A@DKMR2017`	\(a_{t,1}^{A,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-4.3664554520299	\(1\)
`Lambda_b->Lambda_c::a_2_time^A@DKMR2017`	\(a_{t,2}^{A,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_0_long^V@DKMR2017`	\(a_{0,0}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.81458549275845	\(1\)
`Lambda_b->Lambda_c::a_1_long^V@DKMR2017`	\(a_{0,1}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-4.8987680713973	\(1\)
`Lambda_b->Lambda_c::a_2_long^V@DKMR2017`	\(a_{0,2}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_0_perp^V@DKMR2017`	\(a_{\perp,0}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	1.077996185173	\(1\)
`Lambda_b->Lambda_c::a_1_perp^V@DKMR2017`	\(a_{\perp,1}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-6.4170836206134	\(1\)
`Lambda_b->Lambda_c::a_2_perp^V@DKMR2017`	\(a_{\perp,2}^{V,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_0_long^A@DKMR2017`	\(a_{0,0}^{A,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.6846557018386	\(1\)
`Lambda_b->Lambda_c::a_1_long^A@DKMR2017`	\(a_{0,1}^{A,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-4.4311552783827	\(1\)
`Lambda_b->Lambda_c::a_2_long^A@DKMR2017`	\(a_{0,2}^{A,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_1_perp^A@DKMR2017`	\(a_{\perp,1}^{A,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-4.4633624514401	\(1\)
`Lambda_b->Lambda_c::a_2_perp^A@DKMR2017`	\(a_{\perp,2}^{A,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_0_long^T@DKMR2017`	\(a_{0,0}^{T,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.97518189850197	\(1\)
`Lambda_b->Lambda_c::a_1_long^T@DKMR2017`	\(a_{0,1}^{T,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-5.4999842229709	\(1\)
`Lambda_b->Lambda_c::a_2_long^T@DKMR2017`	\(a_{0,2}^{T,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_0_perp^T@DKMR2017`	\(a_{\perp,0}^{T,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.70539533108116	\(1\)
`Lambda_b->Lambda_c::a_1_perp^T@DKMR2017`	\(a_{\perp,1}^{T,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-4.3577976693726	\(1\)
`Lambda_b->Lambda_c::a_2_perp^T@DKMR2017`	\(a_{\perp,2}^{T,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_0_long^T5@DKMR2017`	\(a_{0,0}^{T5,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.67275080357035	\(1\)
`Lambda_b->Lambda_c::a_1_long^T5@DKMR2017`	\(a_{0,1}^{T5,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-4.4321757873186	\(1\)
`Lambda_b->Lambda_c::a_2_long^T5@DKMR2017`	\(a_{0,2}^{T5,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)
`Lambda_b->Lambda_c::a_1_perp^T5@DKMR2017`	\(a_{\perp,1}^{T5,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	-4.4927847697461	\(1\)
`Lambda_b->Lambda_c::a_2_perp^T5@DKMR2017`	\(a_{\perp,2}^{T5,\Lambda_b \to \Lambda_c ,\mathrm{DKMR2017}}\)	0.0	\(1\)

Parameters of the Heavy Quark Expansion of Heavy-to-Heavy Form Factors

Qualified Name	Representation	Default Value	Unit
`B()->D()::n_f@HQET`	\(n_f\)	2.0	\(\textrm{undefined}\)
`B()->D()::mBar@HQET`		5.313	\(\textrm{undefined}\)
`B()->D()::a@HQET`	\(a\)	1.0	\(\textrm{undefined}\)
`B()->D()::xi'(1)@HQET`	\(\xi^{(1)}(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::xi''(1)@HQET`	\(\xi^{(2)}(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::xi'''(1)@HQET`	\(\xi^{(3)}(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::xi''''(1)@HQET`	\(\xi^{(4)}(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::xi'''''(1)@HQET`	\(\xi^{(5)}(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::chi_2(1)@HQET`	\(\chi_2(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::chi_2'(1)@HQET`	\(\chi^{(1)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::chi_2''(1)@HQET`	\(\chi^{(2)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::chi_3'(1)@HQET`	\(\chi^{(1)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::chi_3''(1)@HQET`	\(\chi^{(2)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::eta(1)@HQET`	\(\eta(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::eta'(1)@HQET`	\(\eta^{(1)}(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::eta''(1)@HQET`	\(\eta^{(2)}(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_1(1)@HQET`	\(l_1(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_1'(1)@HQET`	\(l^{(1)}_1(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_1''(1)@HQET`	\(l^{(2)}_1(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_2(1)@HQET`	\(l_2(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_2'(1)@HQET`	\(l^{(1)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_2''(1)@HQET`	\(l^{(2)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_3(1)@HQET`	\(l_3(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_3'(1)@HQET`	\(l^{(1)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_3''(1)@HQET`	\(l^{(2)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_4(1)@HQET`	\(l_4(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_4'(1)@HQET`	\(l^{(1)}_4(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_4''(1)@HQET`	\(l^{(2)}_4(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_5(1)@HQET`	\(l_5(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_5'(1)@HQET`	\(l^{(1)}_5(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_5''(1)@HQET`	\(l^{(2)}_5(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_6(1)@HQET`	\(l_6(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_6'(1)@HQET`	\(l^{(1)}_6(1)\)	0.0	\(\textrm{undefined}\)
`B()->D()::l_6''(1)@HQET`	\(l^{(2)}_6(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::n_s@HQET`	\(n_s\)	1.0	\(\textrm{undefined}\)
`B_s()->D_s()::mBar@HQET`	\(a\)	5.403	\(\textrm{undefined}\)
`B_s()->D_s()::a@HQET`	\(a\)	1.0	\(\textrm{undefined}\)
`B_s()->D_s()::xi'(1)@HQET`	\(\xi^{(1)}(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::xi''(1)@HQET`	\(\xi^{(2)}(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::xi'''(1)@HQET`	\(\xi^{(3)}(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::xi''''(1)@HQET`	\(\xi^{(4)}(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::xi'''''(1)@HQET`	\(\xi^{(5)}(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::chi_2(1)@HQET`	\(\chi^{(0)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::chi_2'(1)@HQET`	\(\chi^{(1)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::chi_2''(1)@HQET`	\(\chi^{(2)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::chi_3'(1)@HQET`	\(\chi^{(1)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::chi_3''(1)@HQET`	\(\chi^{(2)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::eta(1)@HQET`	\(\eta^{(0)}(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::eta'(1)@HQET`	\(\eta^{(1)}(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::eta''(1)@HQET`	\(\eta^{(2)}(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_1(1)@HQET`	\(l^{(0)}_1(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_1'(1)@HQET`	\(l^{(1)}_1(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_1''(1)@HQET`	\(l^{(2)}_1(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_2(1)@HQET`	\(l^{(0)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_2'(1)@HQET`	\(l^{(1)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_2''(1)@HQET`	\(l^{(2)}_2(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_3(1)@HQET`	\(l^{(0)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_3'(1)@HQET`	\(l^{(1)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_3''(1)@HQET`	\(l^{(2)}_3(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_4(1)@HQET`	\(l^{(0)}_4(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_4'(1)@HQET`	\(l^{(1)}_4(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_4''(1)@HQET`	\(l^{(2)}_4(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_5(1)@HQET`	\(l^{(0)}_5(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_5'(1)@HQET`	\(l^{(1)}_5(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_5''(1)@HQET`	\(l^{(2)}_5(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_6(1)@HQET`	\(l^{(0)}_6(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_6'(1)@HQET`	\(l^{(1)}_6(1)\)	0.0	\(\textrm{undefined}\)
`B_s()->D_s()::l_6''(1)@HQET`	\(l^{(2)}_6(1)\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambda_c^*::zeta(q^2_max)@HQET`	\(\zeta(q^2_{\mathrm{max}})\)	0.013054	\(\textrm{undefined}\)
`Lambda_b->Lambda_c^*::rho@HQET`	\(\rho\)	0.05	\(\textrm{undefined}\)
`Lambda_b->Lambda_c^*::delta_3b@HQET`	\(\delta_{3b}\)	0.007087	\(\textrm{undefined}\)
`Lambda_b->Lambda_c^*::rho_3b@HQET`	\(\rho_{3b}\)	0.05	\(\textrm{undefined}\)

Parameters in \({}^1/_2{}^+ \to {}^1/_2{}^+\) Form Factor Parametrizations

Qualified Name	Representation	Unit
`Lambda_b->Lambda(1520)::a^(t12,V)_0@ABR2022`	\(a_0^{t12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,V)_1@ABR2022`	\(a_1^{t12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,V)_2@ABR2022`	\(a_2^{t12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,V)_3@ABR2022`	\(a_3^{t12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,V)_4@ABR2022`	\(a_4^{t12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,A)_0@ABR2022`	\(a_0^{t12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,A)_1@ABR2022`	\(a_1^{t12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,A)_2@ABR2022`	\(a_2^{t12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,A)_3@ABR2022`	\(a_3^{t12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,A)_4@ABR2022`	\(a_4^{t12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T)_0@ABR2022`	\(a_0^{t12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T)_1@ABR2022`	\(a_1^{t12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T)_2@ABR2022`	\(a_2^{t12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T)_3@ABR2022`	\(a_3^{t12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T)_4@ABR2022`	\(a_4^{t12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T5)_0@ABR2022`	\(a_0^{t12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T5)_1@ABR2022`	\(a_1^{t12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T5)_2@ABR2022`	\(a_2^{t12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T5)_3@ABR2022`	\(a_3^{t12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(t12,T5)_4@ABR2022`	\(a_4^{t12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,V)_0@ABR2022`	\(a_0^{012,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,V)_1@ABR2022`	\(a_1^{012,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,V)_2@ABR2022`	\(a_2^{012,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,V)_3@ABR2022`	\(a_3^{012,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,V)_4@ABR2022`	\(a_4^{012,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,A)_0@ABR2022`	\(a_0^{012,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,A)_1@ABR2022`	\(a_1^{012,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,A)_2@ABR2022`	\(a_2^{012,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,A)_3@ABR2022`	\(a_3^{012,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,A)_4@ABR2022`	\(a_4^{012,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T)_0@ABR2022`	\(a_0^{012,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T)_1@ABR2022`	\(a_1^{012,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T)_2@ABR2022`	\(a_2^{012,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T)_3@ABR2022`	\(a_3^{012,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T)_4@ABR2022`	\(a_4^{012,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T5)_0@ABR2022`	\(a_0^{012,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T5)_1@ABR2022`	\(a_1^{012,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T5)_2@ABR2022`	\(a_2^{012,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T5)_3@ABR2022`	\(a_3^{012,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(012,T5)_4@ABR2022`	\(a_4^{012,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,V)_0@ABR2022`	\(a_0^{perp12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,V)_1@ABR2022`	\(a_1^{perp12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,V)_2@ABR2022`	\(a_2^{perp12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,V)_3@ABR2022`	\(a_3^{perp12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,V)_4@ABR2022`	\(a_4^{perp12,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,A)_0@ABR2022`	\(a_0^{perp12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,A)_1@ABR2022`	\(a_1^{perp12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,A)_2@ABR2022`	\(a_2^{perp12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,A)_3@ABR2022`	\(a_3^{perp12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,A)_4@ABR2022`	\(a_4^{perp12,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T)_0@ABR2022`	\(a_0^{perp12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T)_1@ABR2022`	\(a_1^{perp12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T)_2@ABR2022`	\(a_2^{perp12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T)_3@ABR2022`	\(a_3^{perp12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T)_4@ABR2022`	\(a_4^{perp12,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T5)_0@ABR2022`	\(a_0^{perp12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T5)_1@ABR2022`	\(a_1^{perp12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T5)_2@ABR2022`	\(a_2^{perp12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T5)_3@ABR2022`	\(a_3^{perp12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp12,T5)_4@ABR2022`	\(a_4^{perp12,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,V)_0@ABR2022`	\(a_0^{perp32,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,V)_1@ABR2022`	\(a_1^{perp32,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,V)_2@ABR2022`	\(a_2^{perp32,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,V)_3@ABR2022`	\(a_3^{perp32,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,V)_4@ABR2022`	\(a_4^{perp32,V,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,A)_0@ABR2022`	\(a_0^{perp32,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,A)_1@ABR2022`	\(a_1^{perp32,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,A)_2@ABR2022`	\(a_2^{perp32,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,A)_3@ABR2022`	\(a_3^{perp32,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,A)_4@ABR2022`	\(a_4^{perp32,A,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T)_0@ABR2022`	\(a_0^{perp32,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T)_1@ABR2022`	\(a_1^{perp32,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T)_2@ABR2022`	\(a_2^{perp32,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T)_3@ABR2022`	\(a_3^{perp32,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T)_4@ABR2022`	\(a_4^{perp32,T,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T5)_0@ABR2022`	\(a_0^{perp32,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T5)_1@ABR2022`	\(a_1^{perp32,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T5)_2@ABR2022`	\(a_2^{perp32,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T5)_3@ABR2022`	\(a_3^{perp32,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)
`Lambda_b->Lambda(1520)::a^(perp32,T5)_4@ABR2022`	\(a_4^{perp32,T5,\Lambda_b \to \Lambda(1520) ,\mathrm{ABR2022}}\)	\(1\)

Parameters in Non-Local Matrix Elements for \(B\to P\) and \(B\to V\) transitions

Qualified Name	Representation	Default Value	Unit
`b->sccbar::mu`	\(\mu^{b \to s c \bar{c}}\)	4.2	\(\textrm{GeV}\)
`b->sccbar::mu_c`	\(\mu_c^{b \to s c \bar{c}}\)	2.56	\(\textrm{GeV}\)
`b->sccbar::t_0`	\(t_0\)	4.0	\(\textrm{GeV}^2\)
`b->sccbar::t_s`	\(t_s\)	-17.4724	\(\textrm{GeV}^2\)
`b->sccbar::chiOPE@GvDV2020`	\(\chi_{\mathrm{OPE}}\)	0.000181	\(\textrm{GeV}^{-2}\)
`b->sccbar::bound@GvDV2020`	\(\mathcal{B}(b\to sc\bar{c})\)	1.0	\(\textrm{undefined}\)
`b->sccbar::bound_uncertainty@GvDV2020`	\(\delta\mathcal{B}(b\to sc\bar{c})\)	0.1	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_0^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,0}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_1^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,1}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_2^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,2}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_3^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,3}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_4^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,4}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_5^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,5}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_0^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,0}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_1^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,1}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_2^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,2}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_3^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,3}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_4^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,4}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_5^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,5}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_0^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,0}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_1^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,1}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_2^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,2}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_3^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,3}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_4^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,4}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_5^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,5}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_0^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,0}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_1^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,1}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_2^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,2}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_3^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,3}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_4^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,4}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_5^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,5}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_0^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,0}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_1^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,1}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_2^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,2}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_3^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,3}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_4^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,4}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re{alpha_5^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,5}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_0^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,0}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_1^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,1}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_2^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,2}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_3^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,3}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_4^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,4}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im{alpha_5^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,5}^{B\to K^*c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m7_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m5_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m3_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m1_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_t0_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m7_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m5_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m3_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m1_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_t0_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m7_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m5_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m3_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m1_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_t0_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m7_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m5_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m3_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m1_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_t0_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m7_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m5_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m3_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_m1_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Re_Hhat_at_t0_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m7_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m5_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m3_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_m1_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Im_Hhat_at_t0_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Abs_Hhat_at_Jpsi_perp@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Abs_Hhat_at_psi2S_perp@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_Jpsi_perp@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_psi2S_perp@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_\perp^{B\to K^*c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Abs_Hhat_at_Jpsi_para@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Abs_Hhat_at_psi2S_para@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_Jpsi_para@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_psi2S_para@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_\parallel^{B\to K^*c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Abs_Hhat_at_Jpsi_long@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Abs_Hhat_at_psi2S_long@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_Jpsi_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_psi2S_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_0^{B\to K^*c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_Jpsi_perp_minus_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_{\perp 0}^{B\to K^*c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_psi2S_perp_minus_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_{\perp 0}^{B\to K^*c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_Jpsi_para_minus_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_{\parallel 0}^{B\to K^*c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->K^*ccbar::Arg_Hhat_at_psi2S_para_minus_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_{\parallel 0}^{B\to K^*c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_0^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,0}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_1^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,1}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_2^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,2}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_3^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,3}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_4^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,4}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_5^perp}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\perp,5}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_0^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,0}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_1^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,1}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_2^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,2}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_3^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,3}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_4^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,4}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_5^perp}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\perp,5}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_0^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,0}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_1^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,1}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_2^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,2}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_3^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,3}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_4^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,4}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_5^para}@GvDV2020`	\(\mathrm{Re}\, \alpha_{\parallel,5}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_0^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,0}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_1^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,1}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_2^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,2}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_3^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,3}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_4^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,4}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_5^para}@GvDV2020`	\(\mathrm{Im}\, \alpha_{\parallel,5}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_0^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,0}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_1^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,1}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_2^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,2}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_3^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,3}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_4^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,4}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re{alpha_5^long}@GvDV2020`	\(\mathrm{Re}\, \alpha_{0,5}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_0^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,0}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_1^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,1}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_2^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,2}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_3^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,3}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_4^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,4}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im{alpha_5^long}@GvDV2020`	\(\mathrm{Im}\, \alpha_{0,5}^{B_s\to \phi c\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m7_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m5_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m3_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m1_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_t0_perp@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m7_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m5_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m3_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m1_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_t0_perp@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m7_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m5_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m3_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m1_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_t0_para@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m7_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m5_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m3_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m1_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_t0_para@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m7_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m5_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m3_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_m1_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Re_Hhat_at_t0_long@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m7_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m5_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m3_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_m1_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Im_Hhat_at_t0_long@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Abs_Hhat_at_Jpsi_perp@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Abs_Hhat_at_psi2S_perp@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_Jpsi_perp@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_psi2S_perp@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_\perp^{B_s\to \phi c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Abs_Hhat_at_Jpsi_para@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Abs_Hhat_at_psi2S_para@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_Jpsi_para@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_psi2S_para@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_\parallel^{B_s\to \phi c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Abs_Hhat_at_Jpsi_long@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Abs_Hhat_at_psi2S_long@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_Jpsi_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_psi2S_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_0^{B_s\to \phi c\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_Jpsi_perp_minus_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_{\perp 0}^{B_s\to phic\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_psi2S_perp_minus_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_{\perp 0}^{B_s\to phic\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_Jpsi_para_minus_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_{\parallel 0}^{B_s\to phic\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B_s->phiccbar::Arg_Hhat_at_psi2S_para_minus_long@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_{\parallel 0}^{B_s\to phic\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re{alpha_0^plus}@GvDV2020`	\(\mathrm{Re}\, \alpha_{+,0}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re{alpha_1^plus}@GvDV2020`	\(\mathrm{Re}\, \alpha_{+,1}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re{alpha_2^plus}@GvDV2020`	\(\mathrm{Re}\, \alpha_{+,2}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re{alpha_3^plus}@GvDV2020`	\(\mathrm{Re}\, \alpha_{+,3}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re{alpha_4^plus}@GvDV2020`	\(\mathrm{Re}\, \alpha_{+,4}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re{alpha_5^plus}@GvDV2020`	\(\mathrm{Re}\, \alpha_{+,5}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re{alpha_6^plus}@GvDV2020`	\(\mathrm{Re}\, \alpha_{+,6}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im{alpha_0^plus}@GvDV2020`	\(\mathrm{Im}\, \alpha_{+,0}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im{alpha_1^plus}@GvDV2020`	\(\mathrm{Im}\, \alpha_{+,1}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im{alpha_2^plus}@GvDV2020`	\(\mathrm{Im}\, \alpha_{+,2}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im{alpha_3^plus}@GvDV2020`	\(\mathrm{Im}\, \alpha_{+,3}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im{alpha_4^plus}@GvDV2020`	\(\mathrm{Im}\, \alpha_{+,4}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im{alpha_5^plus}@GvDV2020`	\(\mathrm{Im}\, \alpha_{+,5}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im{alpha_6^plus}@GvDV2020`	\(\mathrm{Im}\, \alpha_{+,6}^{B\to Kc\bar{c}}\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re_Hhat_at_m7_plus@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re_Hhat_at_m5_plus@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re_Hhat_at_m3_plus@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re_Hhat_at_m1_plus@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Re_Hhat_at_t0_plus@GRvDV2022`	\(\mathrm{Re}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im_Hhat_at_m7_plus@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(m7)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im_Hhat_at_m5_plus@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(m5)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im_Hhat_at_m3_plus@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(m3)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im_Hhat_at_m1_plus@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(m1)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Im_Hhat_at_t0_plus@GRvDV2022`	\(\mathrm{Im}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(t0)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Abs_Hhat_at_Jpsi_plus@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Abs_Hhat_at_psi2S_plus@GRvDV2022`	\(\mathrm{Abs}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Arg_Hhat_at_Jpsi_plus@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(Jpsi)\)	0.0	\(\textrm{undefined}\)
`B->Kccbar::Arg_Hhat_at_psi2S_plus@GRvDV2022`	\(\mathrm{Arg}\, \hat{\mathcal{H}}_+^{B\to Kc\bar{c}}(psi2S)\)	0.0	\(\textrm{undefined}\)

Parameters for form factor values appearing in non-leptonic class-I B decays

Qualified Name	Representation	Default Value	Unit
`B->DK::f_0(MK2)`	\(f_0^{B \to D}(q^2 = M_K^2)\)	0.672	\(\textrm{undefined}\)
`B->D^*K::A_0(MK2)`	\(A_0^{B \to D}(q^2 = M_K^2)\)	0.708	\(\textrm{undefined}\)
`B_s->D_spi::f_0(Mpi2)`	\(f_0^{B_s \to D_s}(q^2 = M_\pi^2)\)	0.673	\(\textrm{undefined}\)
`B_s->D_s^*pi::A_0(Mpi2)`	\(A_0^{B_s \to D_s^*}(q^2 = M_\pi^2)\)	0.689	\(\textrm{undefined}\)

Miscellaneous Form Factor Parameters

Qualified Name	Representation	Default Value	Unit
`formfactors::xi_perp_uncertainty`	\(\Delta\xi_{\perp}\)	1.0	\(1\)
`formfactors::xi_par_uncertainty`	\(\Delta\xi_{\parallel}\)	1.0	\(1\)
`B->pipi::mu@BFvD2016`	\(\mu^{B \to \pi\pi,\mathrm{BFvD2016}}\)	1.5	\(\textrm{GeV}\)
`Lambda_b->Lambdall::r_perp_0@MvD2016`	\(r_{\perp,0}^{\Lambda_b \to \Lambda \ell^+\ell^- , \mathrm{MvD2016}}\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambdall::r_perp_1@MvD2016`	\(r_{\perp,1}^{\Lambda_b \to \Lambda \ell^+\ell^- , \mathrm{MvD2016}}\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambdall::r_para_0@MvD2016`	\(r_{\parallel,0}^{\Lambda_b \to \Lambda \ell^+\ell^- , \mathrm{MvD2016}}\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambdall::r_para_1@MvD2016`	\(r_{\parallel,1}^{\Lambda_b \to \Lambda \ell^+\ell^- , \mathrm{MvD2016}}\)	0.0	\(\textrm{undefined}\)
`Lambda_b->Lambda_c::mu@ZRSR`	\(\mu^{\Lambda_b \to \Lambda_c , \mathrm{ZRSR}}\)	0.75	\(\textrm{undefined}\)
`Lambda_b->Lambda_c::wM@ZRSR`	\(wM^{\Lambda_b \to \Lambda_c , \mathrm{ZRSR}}\)	0.75	\(\textrm{undefined}\)
`B->K^*ll::A_long_uncertainty@LargeRecoil`	\(\Delta A_0^{B \to K^* \ell^+\ell^- , \mathrm{LargeRecoil}}\)	1.0	\(1\)
`B->K^*ll::A_para_uncertainty@LargeRecoil`	\(\Delta A_{\parallel}^{B \to K^* \ell^+\ell^- , \mathrm{LargeRecoil}}\)	1.0	\(1\)
`B->K^*ll::A_perp_uncertainty@LargeRecoil`	\(\Delta A_{\perp}^{B \to K^* \ell^+\ell^- , \mathrm{LargeRecoil}}\)	1.0	\(1\)
`B_s->phill::A_long_uncertainty@LargeRecoil`	\(\Delta A_0^{B_s \to \phi \ell^+\ell^- , \mathrm{LargeRecoil}}\)	1.0	\(1\)
`B_s->phill::A_para_uncertainty@LargeRecoil`	\(\Delta A_{\parallel}^{B_s \to \phi \ell^+\ell^- , \mathrm{LargeRecoil}}\)	1.0	\(1\)
`B_s->phill::A_perp_uncertainty@LargeRecoil`	\(\Delta A_{\perp}^{B_s \to \phi \ell^+\ell^- , \mathrm{LargeRecoil}}\)	1.0	\(1\)
`B->Pll::Lambda_pseudo@LargeRecoil`	\(\Lambda_P^{B \to P \ell^+\ell^- , \mathrm{LargeRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Pll::sl_phase_pseudo@LargeRecoil`	\(sl_P^{B \to P \ell^+\ell^- , \mathrm{LargeRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Pll::Lambda_pseudo@LowRecoil`	\(\Lambda_P^{B \to P \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Pll::sl_phase_pseudo@LowRecoil`	\(sl_P^{B \to P \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Vll::Lambda@LowRecoil`	\(\Lambda^{B \to V \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Vll::Lambda_0@LowRecoil`	\(\Lambda_0^{B \to V \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Vll::Lambda_pa@LowRecoil`	\(\Lambda_{\parallel}^{B \to V \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Vll::Lambda_pp@LowRecoil`	\(\Lambda_{\perp}^{B \to V \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Vll::sl_phase@LowRecoil`	\(sl^{B \to V \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Vll::sl_phase_0@LowRecoil`	\(sl_0^{B \to V \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Vll::sl_phase_pa@LowRecoil`	\(sl_{\parallel}^{B \to V \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)
`B->Vll::sl_phase_pp@LowRecoil`	\(sl_{\perp}^{B \to V \ell^+\ell^- , \mathrm{LowRecoil}}\)	0.0	\(\textrm{undefined}\)

Parameters in 2->2 scattering amplitudes

Qualified Name	Representation	Default Value	Unit
`mass::pi^+@GMKPRDEY2011`	\(m_{\pi^+}^\mathrm{GMKPRDEY}\)	0.13957	\(\textrm{GeV}\)
`mass::K_u@GMKPRDEY2011`	\(m_{K^+}^\mathrm{GMKPRDEY}\)	0.496	\(\textrm{GeV}\)
`mass::eta@GMKPRDEY2011`	\(m_{\eta}^\mathrm{GMKPRDEY}\)	0.54751	\(\textrm{GeV}\)
`mass::rho^0@GMKPRDEY2011`	\(m_{\rho^0}^\mathrm{GMKPRDEY}\)	0.7736	\(\textrm{GeV}\)
`mass::f_2@GMKPRDEY2011`	\(m_{f_2}^\mathrm{GMKPRDEY}\)	1.2754	\(\textrm{GeV}\)
`pipi->pipi::S0_B_0@GMKPRDEY2011`	\(B_0^{(S0)}\)	7.26	\(1\)
`pipi->pipi::S0_B_1@GMKPRDEY2011`	\(B_1^{(S0)}\)	-25.3	\(1\)
`pipi->pipi::S0_B_2@GMKPRDEY2011`	\(B_2^{(S0)}\)	-33.1	\(1\)
`pipi->pipi::S0_B_3@GMKPRDEY2011`	\(B_3^{(S0)}\)	-26.6	\(1\)
`pipi->pipi::S0_d_0@GMKPRDEY2011`	\(d_0^{(S0)}\)	3.96364	\(1\)
`pipi->pipi::S0_c@GMKPRDEY2011`	\(c^{(S0)}\)	-11.5192	\(1\)
`pipi->pipi::S0_B@GMKPRDEY2011`	\(B^{(S0)}\)	1.64061	\(1\)
`pipi->pipi::S0_C@GMKPRDEY2011`	\(C^{(S0)}\)	0.705113	\(1\)
`pipi->pipi::S0_D@GMKPRDEY2011`	\(D^{(S0)}\)	-1.51669	\(1\)
`pipi->pipi::P1_B_0@GMKPRDEY2011`	\(B_0^{(P)}\)	1.055	\(1\)
`pipi->pipi::P1_B_1@GMKPRDEY2011`	\(B_1^{(P)}\)	0.15	\(1\)
`pipi->pipi::P1_lam_1@GMKPRDEY2011`	\(\lambda_1^{(P)}\)	1.57	\(1\)
`pipi->pipi::P1_lam_2@GMKPRDEY2011`	\(\lambda_2^{(P)}\)	-1.96	\(1\)
`pipi->pipi::D0_B_0@GMKPRDEY2011`	\(B_0^{(D0)}\)	12.47	\(1\)
`pipi->pipi::D0_B_1@GMKPRDEY2011`	\(B_1^{(D0)}\)	10.12	\(1\)
`pipi->pipi::D0_Bh_1@GMKPRDEY2011`	\(B_{h1}^{(D0)}\)	43.7	\(1\)
`pipi->pipi::S0_sM@GMKPRDEY2011`	\(s_M^{(S0)}\)	0.7225	\(\textrm{GeV}^2\)
`pipi->pipi::P1_s0@GMKPRDEY2011`	\(s_0^{(P)}\)	1.1025	\(\textrm{GeV}^2\)
`pipi->pipi::D0_s0@GMKPRDEY2011`	\(s_0^{(D0)}\)	1.1025	\(\textrm{GeV}^2\)
`pipi->pipi::D0_sh@GMKPRDEY2011`	\(s_h^{(D0)}\)	2.1025	\(\textrm{GeV}^2\)
`pipi->pipi::S0_n@GMKPRDEY2011`	\(n^{(S0)}\)	8.0	\(1\)
`pipi->pipi::P1_n@GMKPRDEY2011`	\(n^{(P)}\)	0.75	\(1\)
`pipi->pipi::D0_n@GMKPRDEY2011`	\(n^{(D0)}\)	10.0	\(1\)

Parameters in \(0\to PP\) Form Factor Parametrizations

Qualified Name	Representation	Unit
`0->pipi::b_(+,1)^1@KKRvD2024`	\(b^{(+,I+1)}_1\)	\(\textrm{undefined}\)
`0->pipi::b_(+,1)^2@KKRvD2024`	\(b^{(+,I=1)}_2\)	\(\textrm{undefined}\)
`0->pipi::b_(+,1)^3@KKRvD2024`	\(b^{(+,I=1)}_3\)	\(\textrm{undefined}\)
`0->pipi::b_(+,1)^4@KKRvD2024`	\(b^{(+,I=1)}_4\)	\(\textrm{undefined}\)
`0->pipi::b_(+,1)^5@KKRvD2024`	\(b^{(+,I=1)}_5\)	\(\textrm{undefined}\)
`0->pipi::b_(+,1)^6@KKRvD2024`	\(b^{(+,I=1)}_6\)	\(\textrm{undefined}\)
`0->pipi::b_(+,1)^7@KKRvD2024`	\(b^{(+,I=1)}_7\)	\(\textrm{undefined}\)
`0->pipi::b_(+,1)^8@KKRvD2024`	\(b^{(+,I=1)}_8\)	\(\textrm{undefined}\)
`0->pipi::b_(+,1)^9@KKRvD2024`	\(b^{(+,I=1)}_9\)	\(\textrm{undefined}\)
`0->pipi::M_(+,1)@KKRvD2024`	\(M_{\rho}^{(+,I=1)}\)	\(\textrm{undefined}\)
`0->pipi::Gamma_(+,1)@KKRvD2024`	\(\Gamma_{\rho}^{(+,I=1)}\)	\(\textrm{undefined}\)
`0->pipi::t_0@KKRvD2024`	\(t_0^\textrm{KKRvD2024}\)	\(\textrm{undefined}\)

Standard Model and Effective Field Theory Parameters

Standard Model Parameters

Qualified Name	Representation	Default Value	Unit
`QM::hbar`	\(\hbar\)	6.58211928e-25	\(\textrm{GeV}\,\textrm{s}\)
`GSW::sin^2(theta)`	\(\sin^2(\theta_{\mathrm{GSW}})\)	0.23116	\(1\)
`QED::alpha_e(0)`		0.0072973525693	\(\textrm{undefined}\)
`QED::alpha_e(m_b)`	\(\alpha_e(m_b)\)	0.0075187969924812	\(1\)
`QED::alpha_e(m_c)`	\(\alpha_e(m_c)\)	0.00760641	\(1\)
`WET::G_Fermi`	\(G_{F}\)	1.1663787e-05	\(\textrm{GeV}^{-2}\)
`b->s::mu_0c`	\(\mu^{b \to s}_{0c}\)	80.0	\(\textrm{GeV}\)
`b->s::mu_0t`	\(\mu^{b \to s}_{0t}\)	120.0	\(\textrm{GeV}\)
`QCD::alpha_s(MZ)`	\(\alpha_s(M_Z)\)	0.1184	\(1\)
`QCD::mu_t`	\(\mu_t\)	170.0	\(\textrm{GeV}\)
`QCD::mu_b`	\(\mu_b\)	4.2	\(\textrm{GeV}\)
`QCD::mu_c`	\(\mu_c\)	1.0	\(\textrm{GeV}\)
`QCD::Lambda`	\(\Lambda_\mathrm{QCD}\)	0.5	\(\textrm{GeV}\)
`QCD::cond_ss@2GeV`	\(\left\langle \bar{s} s\right\rangle_{\mu=2\,\mathrm{GeV}}\)	-0.0164566592	\(\textrm{GeV}^3\)
`QCD::cond_GG`	\(\left\langle \frac{\alpha_s}{\pi} G^2\right\rangle\)	0.012	\(1\)
`QCD::m_0^2`	\(\left\langle \bar{q} g_s G q\right\rangle / \left\langle \bar{q} q\right\rangle\)	0.89443	\(\textrm{GeV}^2\)
`QCD::r_vac`	\(\left\langle \bar{q} q\bar{q}q\right\rangle / \left\langle \bar{q}q\right\rangle^2\)	0.55	\(1\)
`CKM::A`	\(A_\mathrm{CKM}\)	0.827	\(1\)
`CKM::lambda`	\(\lambda_\mathrm{CKM}\)	0.22535	\(1\)
`CKM::rhobar`	\(\bar{\rho}_\mathrm{CKM}\)	0.132	\(1\)
`CKM::etabar`	\(\bar{\eta}_\mathrm{CKM}\)	0.35	\(1\)
`mass::e`	\(m_e\)	0.000510999	\(\textrm{GeV}\)
`mass::mu`	\(m_\mu\)	0.105658	\(\textrm{GeV}\)
`mass::tau`	\(m_\tau\)	1.77682	\(\textrm{GeV}\)
`mass::u(2GeV)`	\(\overline{m}_u(2\,\mathrm{GeV})\)	0.0032	\(\textrm{GeV}\)
`mass::d(2GeV)`	\(\overline{m}_d(2\,\mathrm{GeV})\)	0.0048	\(\textrm{GeV}\)
`mass::s(2GeV)`	\(\overline{m}_s(2\,\mathrm{GeV})\)	0.095	\(\textrm{GeV}\)
`mass::c`	\(\overline{m}_c(\overline{m}_c)\)	1.275	\(\textrm{GeV}\)
`mass::b(MSbar)`	\(\overline{m}_b(\overline{m}_b)\)	4.18	\(\textrm{GeV}\)
`mass::t(pole)`	\(m_t^{\mathrm{pole}}\)	173.5	\(\textrm{GeV}\)
`mass::W`	\(M_W\)	80.385	\(\textrm{GeV}\)
`mass::Z`	\(M_Z\)	91.1876	\(\textrm{GeV}\)

CKM Parameters w/o the Assumption of CKM Unitarity

Qualified Name	Representation	Default Value	Unit
`CKM::abs(V_ud)`	\(\|V_{ud}\|\)	0.9742714588182518	\(1\)
`CKM::arg(V_ud)`	\(\arg{V_{ud}}\)	0.0	\(1\)
`CKM::abs(V_us)`	\(\|V_{us}\|\)	0.22534851424944366	\(1\)
`CKM::arg(V_us)`	\(\arg{V_{us}}\)	0.0	\(1\)
`CKM::abs(V_ub)`	\(\|V_{ub}\|\)	0.003631275231633653	\(1\)
`CKM::arg(V_ub)`	\(\arg{V_{ub}}\)	-1.210765774253535	\(1\)
`CKM::abs(V_cd)`	\(\|V_{cd}\|\)	0.2252036736908776	\(1\)
`CKM::arg(V_cd)`	\(\arg{V_{cd}}\)	-3.140974982014205	\(1\)
`CKM::abs(V_cs)`	\(\|V_{cs}\|\)	0.9734061815416853	\(1\)
`CKM::arg(V_cs)`	\(\arg{V_{cs}}\)	-3.304199362533668e-05	\(1\)
`CKM::abs(V_cb)`	\(\|V_{cb}\|\)	0.041996951916414726	\(1\)
`CKM::arg(V_cb)`	\(\arg{V_{cb}}\)	0.0	\(1\)
`CKM::abs(V_td)`	\(\|V_{td}\|\)	0.008859564907130961	\(1\)
`CKM::arg(V_td)`	\(\arg{V_{td}}\)	-0.38266101019797305	\(1\)
`CKM::abs(V_ts)`	\(\|V_{ts}\|\)	0.04121212396309175	\(1\)
`CKM::arg(V_ts)`	\(\arg{V_{ts}}\)	-3.1230250224697222	\(1\)
`CKM::abs(V_tb)`	\(\|V_{tb}\|\)	0.9991111344469873	\(1\)
`CKM::arg(V_tb)`	\(\arg{V_{tb}}\)	0.0	\(1\)

\(\bar{s}b\bar{s}b\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`sbsb::mu`	\(\mu^{\bar{s}b\bar{s}b}\)	4.2	\(\textrm{GeV}\)
`sbsb::mu_0`	\(\mu^{\bar{s}b\bar{s}b}_0\)	120.0	\(\textrm{GeV}\)
`sbsb::Re{c1}`	\(\textrm{Re}\,C_{1}^{\bar{s}b\bar{s}b}\)	0.001313228	\(1\)
`sbsb::Im{c1}`	\(\textrm{Im}\,C_{1}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Re{c1'}`	\(\textrm{Re}\,C_{1^\prime}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Im{c1'}`	\(\textrm{Im}\,C_{1^\prime}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Re{c2}`	\(\textrm{Re}\,C_{2}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Im{c2}`	\(\textrm{Im}\,C_{2}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Re{c2'}`	\(\textrm{Re}\,C_{2^\prime}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Im{c2'}`	\(\textrm{Im}\,C_{2^\prime}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Re{c3}`	\(\textrm{Re}\,C_{3}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Im{c3}`	\(\textrm{Im}\,C_{3}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Re{c3'}`	\(\textrm{Re}\,C_{3^\prime}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Im{c3'}`	\(\textrm{Im}\,C_{3^\prime}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Re{c4}`	\(\textrm{Re}\,C_{4}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Im{c4}`	\(\textrm{Im}\,C_{4}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Re{c5}`	\(\textrm{Re}\,C_{5}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)
`sbsb::Im{c5}`	\(\textrm{Im}\,C_{5}^{\bar{s}b\bar{s}b}\)	0.0	\(1\)

The list of parameters describing the \(\bar{s}b\bar{s}b\) Wilson coefficients. See the EOS manual for their physical definitions.

\(b\to s\left\lbrace \bar{q}q,\, \gamma,\, \ell^+\ell^-\right\rbrace\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`sb::mu`	\(\mu^{b \to s}\)	4.2	\(\textrm{GeV}\)
`sbee::mu`	\(\mu^{b \to see}\)	4.2	\(\textrm{GeV}\)
`sbmumu::mu`	\(\mu^{b \to s\mu\mu}\)	4.2	\(\textrm{GeV}\)
`sbtautau::mu`	\(\mu^{b \to s\tau\tau}\)	4.2	\(\textrm{GeV}\)
`b->s::c1`	\(\mathcal{C}_1\)	-0.29063621	\(1\)
`b->s::c2`	\(\mathcal{C}_2\)	1.01029623	\(1\)
`b->s::c3`	\(\mathcal{C}_3\)	-0.0061622	\(1\)
`b->s::c4`	\(\mathcal{C}_4\)	-0.08730376	\(1\)
`b->s::c5`	\(\mathcal{C}_5\)	0.00042854	\(1\)
`b->s::c6`	\(\mathcal{C}_6\)	0.00115807	\(1\)
`b->s::Re{c7}`	\(\mathrm{Re}\, \mathcal{C}_7\)	-0.33726473	\(1\)
`b->s::Im{c7}`	\(\mathrm{Im}\, \mathcal{C}_7\)	0.0	\(1\)
`b->s::c8`	\(\mathcal{C}_8\)	-0.18288898	\(1\)
`b->see::Re{c9}`	\(\mathrm{Re}\, \mathcal{C}_9^{(e)}\)	4.27342842	\(1\)
`b->see::Im{c9}`	\(\mathrm{Im}\, \mathcal{C}_9^{(e)}\)	0.0	\(1\)
`b->see::Re{c10}`	\(\mathrm{Re}\, \mathcal{C}_{10}^{(e)}\)	-4.16611761	\(1\)
`b->see::Im{c10}`	\(\mathrm{Im}\, \mathcal{C}_{10}^{(e)}\)	0.0	\(1\)
`b->smumu::Re{c9}`	\(\mathrm{Re}\, \mathcal{C}_9^{(\mu)}\)	4.27342842	\(1\)
`b->smumu::Im{c9}`	\(\mathrm{Im}\, \mathcal{C}_9^{(\mu)}\)	0.0	\(1\)
`b->smumu::Re{c10}`	\(\mathrm{Re}\, \mathcal{C}_{10}^{(\mu)}\)	-4.16611761	\(1\)
`b->smumu::Im{c10}`	\(\mathrm{Im}\, \mathcal{C}_{10}^{(\mu)}\)	0.0	\(1\)
`b->s::Re{c7'}`	\(\mathrm{Re}\, \mathcal{C}_{7'}\)	0.0	\(1\)
`b->s::Im{c7'}`	\(\mathrm{Im}\, \mathcal{C}_{7'}\)	0.0	\(1\)
`b->s::c8'`	\(\mathcal{C}_{8'}\)	0.0	\(1\)
`b->see::Re{c9'}`	\(\mathrm{Re}\, \mathcal{C}_{9'}^{(e)}\)	0.0	\(1\)
`b->see::Im{c9'}`	\(\mathrm{Im}\, \mathcal{C}_{9'}^{(e)}\)	0.0	\(1\)
`b->see::Re{c10'}`	\(\mathrm{Re}\, \mathcal{C}_{10'}^{(e)}\)	0.0	\(1\)
`b->see::Im{c10'}`	\(\mathrm{Im}\, \mathcal{C}_{10'}^{(e)}\)	0.0	\(1\)
`b->smumu::Re{c9'}`	\(\mathrm{Re}\, \mathcal{C}_{9'}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Im{c9'}`	\(\mathrm{Im}\, \mathcal{C}_{9'}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Re{c10'}`	\(\mathrm{Re}\, \mathcal{C}_{10'}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Im{c10'}`	\(\mathrm{Im}\, \mathcal{C}_{10'}^{(\mu)}\)	0.0	\(1\)
`b->see::Re{cS}`	\(\mathrm{Re}\, \mathcal{C}_{S}^{(e)}\)	0.0	\(1\)
`b->see::Im{cS}`	\(\mathrm{Im}\, \mathcal{C}_{S}^{(e)}\)	0.0	\(1\)
`b->see::Re{cS'}`	\(\mathrm{Re}\, \mathcal{C}_{S'}^{(e)}\)	0.0	\(1\)
`b->see::Im{cS'}`	\(\mathrm{Im}\, \mathcal{C}_{S'}^{(e)}\)	0.0	\(1\)
`b->see::Re{cP}`	\(\mathrm{Re}\, \mathcal{C}_{P}^{(e)}\)	0.0	\(1\)
`b->see::Im{cP}`	\(\mathrm{Im}\, \mathcal{C}_{P}^{(e)}\)	0.0	\(1\)
`b->see::Re{cP'}`	\(\mathrm{Re}\, \mathcal{C}_{P'}^{(e)}\)	0.0	\(1\)
`b->see::Im{cP'}`	\(\mathrm{Im}\, \mathcal{C}_{P'}^{(e)}\)	0.0	\(1\)
`b->see::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}_{T}^{(e)}\)	0.0	\(1\)
`b->see::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}_{T}^{(e)}\)	0.0	\(1\)
`b->see::Re{cT5}`	\(\mathrm{Re}\, \mathcal{C}_{T5}^{(e)}\)	0.0	\(1\)
`b->see::Im{cT5}`	\(\mathrm{Im}\, \mathcal{C}_{T5}^{(e)}\)	0.0	\(1\)
`b->smumu::Re{cS}`	\(\mathrm{Re}\, \mathcal{C}_{S}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Im{cS}`	\(\mathrm{Im}\, \mathcal{C}_{S}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Re{cS'}`	\(\mathrm{Re}\, \mathcal{C}_{S'}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Im{cS'}`	\(\mathrm{Im}\, \mathcal{C}_{S'}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Re{cP}`	\(\mathrm{Re}\, \mathcal{C}_{P}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Im{cP}`	\(\mathrm{Im}\, \mathcal{C}_{P}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Re{cP'}`	\(\mathrm{Re}\, \mathcal{C}_{P'}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Im{cP'}`	\(\mathrm{Im}\, \mathcal{C}_{P'}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}_{T}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}_{T}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Re{cT5}`	\(\mathrm{Re}\, \mathcal{C}_{T5}^{(\mu)}\)	0.0	\(1\)
`b->smumu::Im{cT5}`	\(\mathrm{Im}\, \mathcal{C}_{T5}^{(\mu)}\)	0.0	\(1\)

The list of parameters describing the \(b\to s \left\lbrace q\bar{q},\gamma,\ell^+\ell^-\right\rbrace\) Wilson coefficients. See the EOS manual for their physical definitions.

\(\bar{c}b\bar{\ell}\nu\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`cbenue::mu`	\(\mu^{\bar{c}b\bar{e}\nu_e}\)	4.2	\(\textrm{GeV}\)
`cbenue::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{V_L}\)	1.0	\(1\)
`cbenue::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{V_L}\)	0.0	\(1\)
`cbenue::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{V_R}\)	0.0	\(1\)
`cbenue::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{V_R}\)	0.0	\(1\)
`cbenue::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{S_L}\)	0.0	\(1\)
`cbenue::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{S_L}\)	0.0	\(1\)
`cbenue::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{S_R}\)	0.0	\(1\)
`cbenue::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{S_R}\)	0.0	\(1\)
`cbenue::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{T}\)	0.0	\(1\)
`cbenue::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{e}\nu_e}_{T}\)	0.0	\(1\)
`cbmunumu::mu`	\(\mu^{\bar{c}b\bar{\mu}\nu_\mu}\)	4.2	\(\textrm{GeV}\)
`cbmunumu::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{V_L}\)	1.0	\(1\)
`cbmunumu::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{V_L}\)	0.0	\(1\)
`cbmunumu::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{V_R}\)	0.0	\(1\)
`cbmunumu::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{V_R}\)	0.0	\(1\)
`cbmunumu::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{S_L}\)	0.0	\(1\)
`cbmunumu::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{S_L}\)	0.0	\(1\)
`cbmunumu::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{S_R}\)	0.0	\(1\)
`cbmunumu::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{S_R}\)	0.0	\(1\)
`cbmunumu::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{T}\)	0.0	\(1\)
`cbmunumu::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\mu}\nu_\mu}_{T}\)	0.0	\(1\)
`cbtaunutau::mu`	\(\mu^{\bar{c}b\bar{\tau}\nu_\tau}\)	4.2	\(\textrm{GeV}\)
`cbtaunutau::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{V_L}\)	1.0	\(1\)
`cbtaunutau::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{V_L}\)	0.0	\(1\)
`cbtaunutau::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{V_R}\)	0.0	\(1\)
`cbtaunutau::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{V_R}\)	0.0	\(1\)
`cbtaunutau::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{S_L}\)	0.0	\(1\)
`cbtaunutau::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{S_L}\)	0.0	\(1\)
`cbtaunutau::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{S_R}\)	0.0	\(1\)
`cbtaunutau::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{S_R}\)	0.0	\(1\)
`cbtaunutau::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{T}\)	0.0	\(1\)
`cbtaunutau::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{c}b\bar{\tau}\nu_\tau}_{T}\)	0.0	\(1\)

The list of parameters describing the Wilson coefficients of \(\bar{c}b\bar{\ell}\nu\) operators in the effective Lagrangian

\[\mathcal{H}^{\bar{c}b\bar{\ell}\nu}_\mathrm{eff} = \frac{4 G_F}{\sqrt{2}} V_{cb} \sum_i \mathcal{C}^{\bar{c}b\bar{\ell}\nu}_i \mathcal{O}^{\bar{c}b\bar{\ell}\nu}_i\,.\]

The operators read:

\[\begin{split}\mathcal{O}_{V_{L(R)}} & = [\bar{c} \gamma^\mu P_{L(R)} b]\, [\bar{\ell} \gamma_\mu P_L \nu_\ell]\\ \mathcal{O}_{S_{L(R)}} & = [\bar{c} P_{L(R)} b]\, [\bar{\ell} P_L \nu_\ell]\\ \mathcal{O}_{T} & = [\bar{c} \sigma^{\mu\nu} b]\, [\bar{\ell} \sigma_{\mu\nu} P_L \nu_\ell]\end{split}\]

\(\bar{u}b\bar{\ell}\nu\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`ubenue::mu`	\(\mu^{\bar{u}b\bar{e}\nu_e}\)	4.2	\(\textrm{GeV}\)
`ubenue::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{V_L}\)	1.0	\(1\)
`ubenue::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{V_L}\)	0.0	\(1\)
`ubenue::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{V_R}\)	0.0	\(1\)
`ubenue::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{V_R}\)	0.0	\(1\)
`ubenue::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{S_L}\)	0.0	\(1\)
`ubenue::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{S_L}\)	0.0	\(1\)
`ubenue::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{S_R}\)	0.0	\(1\)
`ubenue::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{S_R}\)	0.0	\(1\)
`ubenue::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{T}\)	0.0	\(1\)
`ubenue::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{e}\nu_e}_{T}\)	0.0	\(1\)
`ubmunumu::mu`	\(\mu^{\bar{u}b\bar{\mu}\nu_\mu}\)	4.2	\(\textrm{GeV}\)
`ubmunumu::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{V_L}\)	1.0	\(1\)
`ubmunumu::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{V_L}\)	0.0	\(1\)
`ubmunumu::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{V_R}\)	0.0	\(1\)
`ubmunumu::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{V_R}\)	0.0	\(1\)
`ubmunumu::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{S_L}\)	0.0	\(1\)
`ubmunumu::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{S_L}\)	0.0	\(1\)
`ubmunumu::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{S_R}\)	0.0	\(1\)
`ubmunumu::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{S_R}\)	0.0	\(1\)
`ubmunumu::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{T}\)	0.0	\(1\)
`ubmunumu::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\mu}\nu_\mu}_{T}\)	0.0	\(1\)
`ubtaunutau::mu`	\(\mu^{\bar{u}b\bar{\tau}\nu_\tau}\)	4.2	\(\textrm{GeV}\)
`ubtaunutau::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{V_L}\)	1.0	\(1\)
`ubtaunutau::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{V_L}\)	0.0	\(1\)
`ubtaunutau::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{V_R}\)	0.0	\(1\)
`ubtaunutau::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{V_R}\)	0.0	\(1\)
`ubtaunutau::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{S_L}\)	0.0	\(1\)
`ubtaunutau::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{S_L}\)	0.0	\(1\)
`ubtaunutau::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{S_R}\)	0.0	\(1\)
`ubtaunutau::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{S_R}\)	0.0	\(1\)
`ubtaunutau::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{T}\)	0.0	\(1\)
`ubtaunutau::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{u}b\bar{\tau}\nu_\tau}_{T}\)	0.0	\(1\)

The list of parameters describing the Wilson coefficients of \(\bar{u}b\bar{\ell}\nu\) operators in the effective Lagrangian

\[\mathcal{H}^{\bar{u}b\bar{\ell}\nu}_\mathrm{eff} = \frac{4 G_F}{\sqrt{2}} V_{ub} \sum_i \mathcal{C}^{\bar{u}b\bar{\ell}\nu}_i \mathcal{O}^{\bar{u}b\bar{\ell}\nu}_i\,.\]

The operators read:

\[\begin{split}\mathcal{O}_{V_{L(R)}} & = [\bar{u} \gamma^\mu P_{L(R)} b]\, [\bar{\ell} \gamma_\mu P_L \nu_\ell]\\ \mathcal{O}_{S_{L(R)}} & = [\bar{u} P_{L(R)} b]\, [\bar{\ell} P_L \nu_\ell]\\ \mathcal{O}_{T} & = [\bar{u} \sigma^{\mu\nu} b]\, [\bar{\ell} \sigma_{\mu\nu} P_L \nu_\ell]\end{split}\]

\(\bar{s}b\bar{\nu}\nu\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`sbnunu::mu`	\(\mu^{\bar{s}b\bar{\nu}\nu}\)	4.2	\(\textrm{GeV}\)
`sbnunu::mu_0`	\(\mu_0^{\bar{s}b\bar{\nu}\nu}\)	120.0	\(\textrm{GeV}\)
`sbnunu::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{V_L}\)	6.613114906357177	\(\textrm{undefined}\)
`sbnunu::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{V_L}\)	0.0	\(\textrm{undefined}\)
`sbnunu::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{V_R}\)	0.0	\(\textrm{undefined}\)
`sbnunu::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{V_R}\)	0.0	\(\textrm{undefined}\)
`sbnunu::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{S_L}\)	0.0	\(\textrm{undefined}\)
`sbnunu::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{S_L}\)	0.0	\(\textrm{undefined}\)
`sbnunu::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{S_R}\)	0.0	\(\textrm{undefined}\)
`sbnunu::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{S_R}\)	0.0	\(\textrm{undefined}\)
`sbnunu::Re{cTL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{T_L}\)	0.0	\(\textrm{undefined}\)
`sbnunu::Im{cTL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_{T_L}\)	0.0	\(\textrm{undefined}\)

The list of parameters describing the \(\bar{s}b\bar{s}b\) Wilson coefficients in the effective Hamiltonian

\[\mathcal{H}^{\bar{s}b\bar{\nu}\nu}_\mathrm{eff} = \frac{4 G_F}{\sqrt{2}} \frac{\alpha_e}{2 \pi} V_{tb}^* V_{ts} \sum_i \mathcal{C}^{\bar{s}b\bar{\nu}\nu}_i \mathcal{O}^{\bar{s}b\bar{\nu}\nu}_i\,.\]

The operators read:

\[\mathcal{O}_{L(R)} = [\bar{s} \gamma^\mu P_{L(R)} b]\, [\bar{\ell} \gamma_\mu P_L \nu_\ell]\]

\(\bar{s}b\bar{c}u\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`sbcu::mu`	\(\mu^{\bar{s}b\bar{c}u}\)	4.2	\(\textrm{GeV}\)
`sbcu::mu_0`	\(\mu_0^{\bar{s}b\bar{c}u}\)	80.0	\(\textrm{GeV}\)
`sbcu::Re{c1}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{1}\)	-0.041469	\(\textrm{undefined}\)
`sbcu::Im{c1}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{1}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c2}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{2}\)	-0.899772	\(\textrm{undefined}\)
`sbcu::Im{c2}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{2}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c3}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{3}\)	0.011126	\(\textrm{undefined}\)
`sbcu::Im{c3}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{3}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c4}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{4}\)	0.194904	\(\textrm{undefined}\)
`sbcu::Im{c4}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{4}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c5}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{5}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c5}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{5}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c6}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{6}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c6}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{6}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c7}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{7}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c7}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{7}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c8}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{8}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c8}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{8}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c9}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{9}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c9}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{9}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c10}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{10}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c10}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{10}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c1'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{1\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c1'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{1\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c2'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{2\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c2'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{2\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c3'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{3\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c3'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{3\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c4'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{4\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c4'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{4\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c5'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{5\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c5'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{5\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c6'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{6\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c6'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{6\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c7'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{7\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c7'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{7\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c8'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{8\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c8'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{8\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c9'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{9\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c9'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{9\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Re{c10'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{10\prime}\)	0.0	\(\textrm{undefined}\)
`sbcu::Im{c10'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}b\bar{c}u}_{10\prime}\)	0.0	\(\textrm{undefined}\)

The list of parameters describing the \(\bar{s}b\bar{c}u\) Wilson coefficients in the effective Hamiltonian

\[\mathcal{H}^{\bar{s}b\bar{c}u}_\mathrm{eff} = \frac{4 G_F}{\sqrt{2}} V_{cb} V_{us}^* \sum_i \mathcal{C}^{\bar{s}b\bar{c}u}_i \mathcal{O}^{\bar{s}b\bar{c}u}_i\,.\]

The operators read:

\[\mathcal{O}_{1(')} = [\bar{s} \gamma^\mu P_{L(R)} b]\, [\bar{c} \gamma_\mu u]\]

\(\bar{d}b\bar{c}u\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`dbcu::mu`	\(\mu^{\bar{d}b\bar{c}u}\)	4.2	\(\textrm{GeV}\)
`dbcu::mu_0`	\(\mu_0^{\bar{d}b\bar{c}u}\)	80.0	\(\textrm{GeV}\)
`dbcu::Re{c1}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{1}\)	-0.041469	\(\textrm{undefined}\)
`dbcu::Im{c1}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{1}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c2}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{2}\)	-0.899772	\(\textrm{undefined}\)
`dbcu::Im{c2}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{2}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c3}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{3}\)	0.011126	\(\textrm{undefined}\)
`dbcu::Im{c3}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{3}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c4}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{4}\)	0.194904	\(\textrm{undefined}\)
`dbcu::Im{c4}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{4}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c5}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{5}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c5}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{5}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c6}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{6}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c6}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{6}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c7}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{7}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c7}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{7}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c8}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{8}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c8}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{8}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c9}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{9}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c9}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{9}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c10}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{10}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c10}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{10}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c1'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{1\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c1'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{1\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c2'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{2\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c2'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{2\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c3'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{3\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c3'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{3\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c4'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{4\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c4'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{4\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c5'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{5\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c5'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{5\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c6'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{6\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c6'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{6\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c7'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{7\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c7'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{7\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c8'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{8\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c8'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{8\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c9'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{9\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c9'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{9\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Re{c10'}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{10\prime}\)	0.0	\(\textrm{undefined}\)
`dbcu::Im{c10'}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}b\bar{c}u}_{10\prime}\)	0.0	\(\textrm{undefined}\)

The list of parameters describing the \(\bar{d}b\bar{c}u\) Wilson coefficients in the effective Hamiltonian

\[\mathcal{H}^{\bar{d}b\bar{c}u}_\mathrm{eff} = \frac{4 G_F}{\sqrt{2}} V_{cb} V_{ud}^* \sum_i \mathcal{C}^{\bar{d}b\bar{c}u}_i \mathcal{O}^{\bar{d}b\bar{c}u}_i\,.\]

The operators read:

\[\mathcal{O}_{1(')} = [\bar{d} \gamma^\mu P_{L(R)} b]\, [\bar{c} \gamma_\mu u]\]

\(\bar{s}c\bar{\nu}\ell\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`scnuee::mu`	\(\mu^{\bar{s}c\bar{nu}_ee}\)	1.275	\(\textrm{GeV}\)
`scnuee::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{V_L}\)	1.0	\(1\)
`scnuee::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{V_L}\)	0.0	\(1\)
`scnuee::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{V_R}\)	0.0	\(1\)
`scnuee::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{V_R}\)	0.0	\(1\)
`scnuee::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{S_L}\)	0.0	\(1\)
`scnuee::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{S_L}\)	0.0	\(1\)
`scnuee::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{S_R}\)	0.0	\(1\)
`scnuee::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{S_R}\)	0.0	\(1\)
`scnuee::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{T}\)	0.0	\(1\)
`scnuee::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_ee}_{T}\)	0.0	\(1\)
`scnumumu::mu`	\(\mu^{\bar{s}c\bar{nu}_\mu\mu}\)	1.275	\(\textrm{GeV}\)
`scnumumu::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{V_L}\)	1.0	\(1\)
`scnumumu::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{V_L}\)	0.0	\(1\)
`scnumumu::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{V_R}\)	0.0	\(1\)
`scnumumu::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{V_R}\)	0.0	\(1\)
`scnumumu::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{S_L}\)	0.0	\(1\)
`scnumumu::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{S_L}\)	0.0	\(1\)
`scnumumu::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{S_R}\)	0.0	\(1\)
`scnumumu::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{S_R}\)	0.0	\(1\)
`scnumumu::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{T}\)	0.0	\(1\)
`scnumumu::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\mu\mu}_{T}\)	0.0	\(1\)
`scnutautau::mu`	\(\mu^{\bar{s}c\bar{nu}_\tau\tau}\)	1.275	\(\textrm{GeV}\)
`scnutautau::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{V_L}\)	1.0	\(1\)
`scnutautau::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{V_L}\)	0.0	\(1\)
`scnutautau::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{V_R}\)	0.0	\(1\)
`scnutautau::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{V_R}\)	0.0	\(1\)
`scnutautau::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{S_L}\)	0.0	\(1\)
`scnutautau::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{S_L}\)	0.0	\(1\)
`scnutautau::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{S_R}\)	0.0	\(1\)
`scnutautau::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{S_R}\)	0.0	\(1\)
`scnutautau::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{T}\)	0.0	\(1\)
`scnutautau::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{s}c\bar{nu}_\tau\tau}_{T}\)	0.0	\(1\)

The list of parameters describing the Wilson coefficients of \(\bar{s}c\bar{\nu}\ell\) operators in the effective Lagrangian .. math:

 \mathcal{H}^{\bar{s}c\bar{\nu}\ell}_\mathrm{eff}
 = \frac{4 G_F}{\sqrt{2}} V_{cs}^* \sum_i \mathcal{C}^{\bar{s}c\bar{\nu}\ell}_i \mathcal{O}^{\bar{s}c\bar{\nu}\ell}_i\,.
The operators read:

\[\begin{split}\mathcal{O}_{V_{L(R)}} & = [\bar{s} \gamma^\mu P_{L(R)} c]\, [\bar{\nu}_\ell \gamma_\mu P_L \ell]\\ \mathcal{O}_{S_{L(R)}} & = [\bar{s} P_{L(R)} c]\, [\bar{\nu}_\ell P_L \ell]\\ \mathcal{O}_{T} & = [\bar{s} \sigma^{\mu\nu} c]\, [\bar{\nu}_\ell \sigma_{\mu\nu} P_L \ell]\end{split}\]

\(\bar{d}c\bar{\nu}\ell\) WET Parameters

Qualified Name	Representation	Default Value	Unit
`dcnuee::mu`	\(\mu^{\bar{d}c\bar{nu}_ee}\)	1.275	\(\textrm{GeV}\)
`dcnuee::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{V_L}\)	1.0	\(1\)
`dcnuee::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{V_L}\)	0.0	\(1\)
`dcnuee::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{V_R}\)	0.0	\(1\)
`dcnuee::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{V_R}\)	0.0	\(1\)
`dcnuee::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{S_L}\)	0.0	\(1\)
`dcnuee::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{S_L}\)	0.0	\(1\)
`dcnuee::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{S_R}\)	0.0	\(1\)
`dcnuee::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{S_R}\)	0.0	\(1\)
`dcnuee::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{T}\)	0.0	\(1\)
`dcnuee::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_ee}_{T}\)	0.0	\(1\)
`dcnumumu::mu`	\(\mu^{\bar{d}c\bar{nu}_\mu\mu}\)	1.275	\(\textrm{GeV}\)
`dcnumumu::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{V_L}\)	1.0	\(1\)
`dcnumumu::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{V_L}\)	0.0	\(1\)
`dcnumumu::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{V_R}\)	0.0	\(1\)
`dcnumumu::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{V_R}\)	0.0	\(1\)
`dcnumumu::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{S_L}\)	0.0	\(1\)
`dcnumumu::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{S_L}\)	0.0	\(1\)
`dcnumumu::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{S_R}\)	0.0	\(1\)
`dcnumumu::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{S_R}\)	0.0	\(1\)
`dcnumumu::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{T}\)	0.0	\(1\)
`dcnumumu::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\mu\mu}_{T}\)	0.0	\(1\)
`dcnutautau::mu`	\(\mu^{\bar{d}c\bar{nu}_\tau\tau}\)	1.275	\(\textrm{GeV}\)
`dcnutautau::Re{cVL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{V_L}\)	1.0	\(1\)
`dcnutautau::Im{cVL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{V_L}\)	0.0	\(1\)
`dcnutautau::Re{cVR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{V_R}\)	0.0	\(1\)
`dcnutautau::Im{cVR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{V_R}\)	0.0	\(1\)
`dcnutautau::Re{cSL}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{S_L}\)	0.0	\(1\)
`dcnutautau::Im{cSL}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{S_L}\)	0.0	\(1\)
`dcnutautau::Re{cSR}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{S_R}\)	0.0	\(1\)
`dcnutautau::Im{cSR}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{S_R}\)	0.0	\(1\)
`dcnutautau::Re{cT}`	\(\mathrm{Re}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{T}\)	0.0	\(1\)
`dcnutautau::Im{cT}`	\(\mathrm{Im}\, \mathcal{C}^{\bar{d}c\bar{nu}_\tau\tau}_{T}\)	0.0	\(1\)

The list of parameters describing the Wilson coefficients of \(\bar{d}c\bar{\nu}\ell\) operators in the effective Lagrangian .. math:

 \mathcal{H}^{\bar{d}c\bar{\nu}\ell}_\mathrm{eff}
 = \frac{4 G_F}{\sqrt{2}} V_{cd}^* \sum_i \mathcal{C}^{\bar{d}c\bar{\nu}\ell}_i \mathcal{O}^{\bar{d}c\bar{\nu}\ell}_i\,.
The operators read:

\[\begin{split}\mathcal{O}_{V_{L(R)}} & = [\bar{d} \gamma^\mu P_{L(R)} c]\, [\bar{\nu}_\ell \gamma_\mu P_L \ell]\\ \mathcal{O}_{S_{L(R)}} & = [\bar{d} P_{L(R)} c]\, [\bar{\nu}_\ell P_L \ell]\\ \mathcal{O}_{T} & = [\bar{d} \sigma^{\mu\nu} c]\, [\bar{\nu}_\ell \sigma_{\mu\nu} P_L \ell]\end{split}\]

Hadron Property Parameters

Pseudoscalar Meson Masses

Qualified Name	Representation	Default Value	Unit
`mass::pi^0`	\(m_{\pi^0}\)	0.1349768	\(\textrm{GeV}\)
`mass::pi^+`	\(m_{\pi^\pm}\)	0.13957039	\(\textrm{GeV}\)
`mass::K_d`	\(m_{K^0}\)	0.497611	\(\textrm{GeV}\)
`mass::K_u`	\(m_{K^\pm}\)	0.493677	\(\textrm{GeV}\)
`mass::D_d`	\(m_{D^\pm}\)	1.86965	\(\textrm{GeV}\)
`mass::D^+`	\(m_{D^\pm}\)	1.86965	\(\textrm{GeV}\)
`mass::D_u`	\(m_{D^0}\)	1.86483	\(\textrm{GeV}\)
`mass::D^0`	\(m_{D^0}\)	1.86483	\(\textrm{GeV}\)
`mass::D_s`	\(m_{D_s}\)	1.96834	\(\textrm{GeV}\)
`mass::D_s,0`	\(m_{D_{s,0}}\)	2.318	\(\textrm{GeV}\)
`mass::B_d`	\(m_{B^0}\)	5.27965	\(\textrm{GeV}\)
`mass::B_u`	\(m_{B^\pm}\)	5.27934	\(\textrm{GeV}\)
`mass::B_s`	\(m_{B^0_s}\)	5.36688	\(\textrm{GeV}\)
`mass::B_c`	\(m_{B_c^\pm}\)	6.27447	\(\textrm{GeV}\)
`mass::B_s,0`	\(m_{B_{s,0}}\)	5.711	\(\textrm{GeV}\)

Vector Meson Masses

Qualified Name	Representation	Default Value	Unit
`mass::rho^+`	\(m_{\rho^\pm}\)	0.77511	\(\textrm{GeV}\)
`mass::rho^0`	\(m_{\rho^0}\)	0.77526	\(\textrm{GeV}\)
`mass::omega`	\(m_{\omega}\)	0.78266	\(\textrm{GeV}\)
`mass::phi`	\(m_{\phi}\)	1.019461	\(\textrm{GeV}\)
`mass::K_d^*`	\(m_{K^{0*}}\)	0.89555	\(\textrm{GeV}\)
`mass::K_u^*`	\(m_{K^{\pm*}}\)	0.89166	\(\textrm{GeV}\)
`mass::D_d^*`	\(m_{D^{\pm*}}\)	2.01026	\(\textrm{GeV}\)
`mass::D_u^*`	\(m_{D^{0*}}\)	2.00685	\(\textrm{GeV}\)
`mass::D_s^*`	\(m_{D_s^*}\)	2.1122	\(\textrm{GeV}\)
`mass::D_s,1`	\(m_{D_{s,1}}^\mathrm{BSZ}\)	2.46	\(\textrm{GeV}\)
`mass::B_d^*`	\(m_{B^*}\)	5.3247	\(\textrm{GeV}\)
`mass::B_s^*`	\(m_{B_s^*}\)	5.4154	\(\textrm{GeV}\)
`mass::B_s,1`	\(m_{B_{s,1}}\)	5.75	\(\textrm{GeV}\)
`mass::J/psi`	\(m_{J/\psi}\)	3.0969	\(\textrm{GeV}\)
`mass::psi(2S)`	\(m_{\psi(2S)}\)	3.6861	\(\textrm{GeV}\)
`mass::psi(3770)`	\(m_{\psi(3770)}\)	3.7737	\(\textrm{GeV}\)
`mass::psi(4040)`	\(m_{\psi(4040)}\)	4.039	\(\textrm{GeV}\)
`mass::psi(4160)`	\(m_{\psi(4160)}\)	4.191	\(\textrm{GeV}\)
`mass::psi(4415)`	\(m_{\psi(4415)}\)	4.421	\(\textrm{GeV}\)

Baryon Masses

Qualified Name	Representation	Default Value	Unit
`mass::Lambda`	\(m_{\Lambda}\)	1.115683	\(\textrm{GeV}\)
`mass::Lambda(1520)`	\(m_{\Lambda(1520)}\)	1.518	\(\textrm{GeV}\)
`mass::Lambda_c`	\(m_{\Lambda_c}\)	2.28646	\(\textrm{GeV}\)
`mass::Lambda_c(2625)`	\(m_{\Lambda_c(2625)}\)	2.62811	\(\textrm{GeV}\)
`mass::Lambda_c(2595)`	\(m_{\Lambda_c(2595)}\)	2.59225	\(\textrm{GeV}\)
`mass::Lambda_b`	\(m_{\Lambda_b}\)	5.6196	\(\textrm{GeV}\)

Decay Constants

Qualified Name	Representation	Default Value	Unit
`decay-constant::B_d`	\(f_{\bar{B}^0}\)	0.1905	\(\textrm{GeV}\)
`decay-constant::B_u`	\(f_{B^-}\)	0.1894	\(\textrm{GeV}\)
`decay-constant::B_s`	\(f_{\bar{B}_s^0}\)	0.2307	\(\textrm{GeV}\)
`decay-constant::B_c`	\(f_{B_c^\pm}\)	0.434	\(\textrm{GeV}\)
`decay-constant::B_d^*`	\(f_{\bar{B}^*}\)	0.1864	\(\textrm{GeV}\)
`decay-constant::B_s^*`	\(f_{\bar{B}_s^*}\)	0.2231	\(\textrm{GeV}\)
`decay-constant::B_s^*,T`	\(f_{\bar{B}_s^{*,T}}\)	0.236	\(\textrm{GeV}\)
`decay-constant::B_s,0`	\(f_{\bar{B}_{s,0}}\)	0.25	\(\textrm{GeV}\)
`decay-constant::B_s,1`	\(f_{\bar{B}_{s,1}}\)	0.305	\(\textrm{GeV}\)
`decay-constant::B_s,1^T`	\(f_{\bar{B}_{s,1}^T}\)	0.285	\(\textrm{GeV}\)
`decay-constant::K_d`	\(f_{\bar{K}^0}\)	0.1561	\(\textrm{GeV}\)
`decay-constant::K_u`	\(f_{K^-}\)	0.1561	\(\textrm{GeV}\)
`decay-constant::K`	\(f_{\bar{K}}\)	0.1561	\(\textrm{GeV}\)
`decay-constant::K_d^*`	\(f_{\bar{K}^{*0}}\)	0.204	\(\textrm{GeV}\)
`decay-constant::K_u^*`	\(f_{K^{*-}}\)	0.204	\(\textrm{GeV}\)
`decay-constant::pi`	\(f_\pi\)	0.1302	\(\textrm{GeV}\)
`decay-constant::J/psi`	\(f_{J/\psi}\)	0.2773	\(\textrm{GeV}\)
`decay-constant::psi(2S)`	\(f_{\psi(2S)}\)	0.198	\(\textrm{GeV}\)
`decay-constant::rho`	\(f_{\rho}\)	0.213	\(\textrm{GeV}\)
`decay-constant::phi`	\(f_{\phi}\)	0.233	\(\textrm{GeV}\)
`decay-constant::D_d`	\(f_{D^-}\)	0.2127	\(\textrm{GeV}\)
`decay-constant::D_u`	\(f_{D^0}\)	0.2116	\(\textrm{GeV}\)
`decay-constant::D_s`	\(f_{D_s^-}\)	0.2499	\(\textrm{GeV}\)
`decay-constant::D_d^*`	\(f_{D^{*-}}\)	0.242	\(\textrm{GeV}\)
`decay-constant::D_d^*,T`	\(f_{\bar{D}_d^{*,T}}\)	0.3	\(\textrm{GeV}\)
`decay-constant::D_u^*`	\(f_{D^{*0}}\)	0.242	\(\textrm{GeV}\)
`decay-constant::D_s^*`	\(f_{D_s^{*0}}\)	0.293	\(\textrm{GeV}\)
`decay-constant::D_s^*,T`	\(f_{\bar{D}_s^{*,T}}\)	0.25	\(\textrm{GeV}\)
`decay-constant::D_s,0`	\(f_{\bar{D}_{s,0}}\)	0.25	\(\textrm{GeV}\)
`decay-constant::D_s,1`	\(f_{\bar{D}_{s,1}}\)	0.25	\(\textrm{GeV}\)
`decay-constant::D_s,1^T`	\(f_{\bar{D}_{s,1}^T}\)	0.25	\(\textrm{GeV}\)
`decay-constant::g_{B^*Bpi}`	\(g_{B^*B\pi}\)	30.0	\(\textrm{undefined}\)

Mean Meson Lifetimes

Qualified Name	Representation	Default Value	Unit
`life_time::D_d`	\(\tau_{D^+}\)	1.033e-12	\(\textrm{s}\)
`life_time::D_d^*`	\(\tau_{D_s^*}\)	7.892e-21	\(\textrm{s}\)
`life_time::D_u`	\(\tau_{D^0}\)	4.103e-13	\(\textrm{s}\)
`life_time::D_s`	\(\tau_{D_s}\)	5.04e-13	\(\textrm{s}\)
`life_time::D_s^*`	\(\tau_{D_s^*}\)	9.4e-18	\(\textrm{s}\)
`life_time::B_d`	\(\tau_{B_d}\)	1.519e-12	\(\textrm{s}\)
`life_time::B_u`	\(\tau_{B_u}\)	1.641e-12	\(\textrm{s}\)
`life_time::B_s`	\(\tau_{B_s}\)	1.516e-12	\(\textrm{s}\)
`life_time::B_c`	\(\tau_{B_c}\)	5.1e-13	\(\textrm{s}\)
`life_time::B@Y(4S)`	\(\tau_{B(\Upsilon(4S))}\)	1.58e-12	\(\textrm{s}\)
`life_time::Delta_B_d`	\(\Delta \Gamma_{B_d}\)	0.0	\(\textrm{s}^{-1}\)
`life_time::Delta_B_s`	\(\Delta \Gamma_{B_s}\)	81000000000.0	\(\textrm{s}^{-1}\)
`B_s::ys`	\(y_{B_s}\)	0.0675	\(\textrm{undefined}\)
`B_s::q_over_p_phase`	\(\phi_{B_s}\)	-0.05	\(\textrm{undefined}\)

Mean Baryon Lifetimes

Qualified Name	Representation	Default Value	Unit
`life_time::Lambda_b`	\(\tau_{\Lambda_b}\)	1.471e-12	\(\textrm{s}\)
`life_time::Lambda_c`	\(\tau_{\Lambda_c}\)	2.015e-13	\(\textrm{s}\)

Parameters for Miscellaneous Baryon Properties

Qualified Name	Representation	Default Value	Unit
`Lambda::alpha`	\(\alpha_{-}^{\Lambda}\)	0.642	\(1\)
`Lambda_c::alpha`	\(\alpha_{-}^{\Lambda_c}\)	-0.78	\(1\)
`Lambda_b::polarisation@unpolarised`		0.0	\(1\)
`Lambda_b::polarisation@LHCb`		0.06	\(1\)

Parameters in Light-Cone Distribution Amplitudes

Qualified Name	Representation	Default Value	Unit
`pi::a2@1GeV`	\(a^{\pi}_2(1\,\mathrm{GeV})\)	0.16	\(1\)
`pi::a4@1GeV`	\(a^{\pi}_4(1\,\mathrm{GeV})\)	0.04	\(1\)
`pi::f3@1GeV`	\(f^{\pi}_3(1\,\mathrm{GeV})\)	0.0045	\(\textrm{GeV}^2\)
`pi::omega3@1GeV`	\(\omega^{\pi}_3(1\,\mathrm{GeV})\)	-1.5	\(1\)
`pi::omega4@1GeV`	\(\omega^{\pi}_4(1\,\mathrm{GeV})\)	0.2	\(1\)
`pi::delta4@1GeV`	\((\delta^{\pi})^2(1\,\mathrm{GeV})\)	0.18	\(\textrm{GeV}^2\)
`rho::a2para@1GeV`	\(a^{\rho}_{2, \parallel}(1\,\mathrm{GeV})\)	0.17	\(1\)
`rho::a4para@1GeV`	\(a^{\rho}_{4, \parallel}(1\,\mathrm{GeV})\)	0.0	\(1\)
`rho::fpara`	\(f^{\rho}_{\parallel}\)	0.213	\(\textrm{GeV}\)
`rho::a2perp@1GeV`	\(a^{\rho}_{2, \perp}(1\,\mathrm{GeV})\)	0.14	\(1\)
`rho::a4perp@1GeV`	\(a^{\rho}_{4, \perp}(1\,\mathrm{GeV})\)	0.0	\(1\)
`rho::fperp@1GeV`	\(f^{\rho}_{\perp}(1\,\mathrm{GeV})\)	0.16	\(\textrm{GeV}\)
`K::a1@1GeV`	\(a^{K}_1(1\,\mathrm{GeV})\)	-0.07	\(1\)
`K::a2@1GeV`	\(a^{K}_2(1\,\mathrm{GeV})\)	0.24	\(1\)
`K::a3@1GeV`	\(a^{K}_3(1\,\mathrm{GeV})\)	0.0	\(1\)
`K::a4@1GeV`	\(a^{K}_4(1\,\mathrm{GeV})\)	0.0	\(1\)
`K::f3@1GeV`	\(f^{K}_3(1\,\mathrm{GeV})\)	0.0045	\(\textrm{GeV}^2\)
`K::omega3@1GeV`	\(\omega^{K}_3(1\,\mathrm{GeV})\)	-1.5	\(1\)
`K::lambda3@1GeV`	\(\lambda^{K}_3(1\,\mathrm{GeV})\)	1.6	\(1\)
`K::omega4@1GeV`	\(\omega^{K}_4(1\,\mathrm{GeV})\)	0.2	\(1\)
`K::delta4@1GeV`	\((\delta^{K})^2(1\,\mathrm{GeV})\)	0.18	\(\textrm{GeV}^2\)
`K^*::a_1_para@1GeV`	\(a^{K^*}_{1,\parallel}(1\,\mathrm{GeV})\)	0.06	\(1\)
`K^*::a_2_para@1GeV`	\(a^{K^*}_{2,\parallel}(1\,\mathrm{GeV})\)	0.16	\(1\)
`K^*::f_para`	\(f^{K^*}_{\parallel}(1\,\mathrm{GeV})\)	0.204	\(\textrm{GeV}\)
`K^*::a_1_perp@1GeV`	\(a^{K^*}_{1,\perp}(1\,\mathrm{GeV})\)	0.04	\(1\)
`K^*::a_2_perp@1GeV`	\(a^{K^*}_{2,\perp}(1\,\mathrm{GeV})\)	0.1	\(1\)
`K^*::f_perp@1GeV`	\(f^{K^*}_{\perp}(1\,\mathrm{GeV})\)	0.159	\(\textrm{GeV}\)
`K^*::a1para@1GeV`	\(a^{K^*}_{1,\parallel}(1\,\mathrm{GeV})\)	0.06	\(1\)
`K^*::a2para@1GeV`	\(a^{K^*}_{2,\parallel}(1\,\mathrm{GeV})\)	0.16	\(1\)
`K^*::a3para@1GeV`	\(a^{K^*}_{3,\parallel}(1\,\mathrm{GeV})\)	0.0	\(1\)
`K^*::a4para@1GeV`	\(a^{K^*}_{4,\parallel}(1\,\mathrm{GeV})\)	0.0	\(1\)
`K^*::fpara`	\(f^{K^*}_{\parallel}(1\,\mathrm{GeV})\)	0.204	\(\textrm{GeV}\)
`K^*::a1perp@1GeV`	\(a^{K^*}_{1,\perp}(1\,\mathrm{GeV})\)	0.04	\(1\)
`K^*::a2perp@1GeV`	\(a^{K^*}_{2,\perp}(1\,\mathrm{GeV})\)	0.1	\(1\)
`K^*::a3perp@1GeV`	\(a^{K^*}_{3,\perp}(1\,\mathrm{GeV})\)	0.0	\(1\)
`K^*::a4perp@1GeV`	\(a^{K^*}_{4,\perp}(1\,\mathrm{GeV})\)	0.0	\(1\)
`K^*::fperp@1GeV`	\(f^{K^*}_{\perp}(1\,\mathrm{GeV})\)	0.159	\(\textrm{GeV}\)
`phi::a_1_para@1GeV`	\(a^{phi}_{1,\parallel}(1\,\mathrm{GeV})\)	0.0	\(1\)
`phi::a_2_para@1GeV`	\(a^{phi}_{2,\parallel}(1\,\mathrm{GeV})\)	0.23	\(1\)
`phi::f_para`	\(f^{phi}_{\parallel}(1\,\mathrm{GeV})\)	0.233	\(\textrm{GeV}\)
`phi::a_1_perp@1GeV`	\(a^{phi}_{1,\perp}(1\,\mathrm{GeV})\)	0.0	\(1\)
`phi::a_2_perp@1GeV`	\(a^{phi}_{2,\perp}(1\,\mathrm{GeV})\)	0.14	\(1\)
`phi::f_perp@1GeV`	\(f^{phi}_{\perp}(1\,\mathrm{GeV})\)	0.191	\(\textrm{GeV}\)
`K::a_1@1GeV`	\(a^{K}_{1}(1\,\mathrm{GeV})\)	0.06	\(1\)
`K::a_2@1GeV`	\(a^{K}_{2}(1\,\mathrm{GeV})\)	0.25	\(1\)
`K::a_4@1GeV`	\(a^{K}_{4}(1\,\mathrm{GeV})\)	-0.015	\(1\)
`K::a_1@2.2GeV`	\(a^{K}_{1}(2.2\,\mathrm{GeV})\)	0.048	\(1\)
`K::a_2@2.2GeV`	\(a^{K}_{2}(2.2\,\mathrm{GeV})\)	0.174	\(1\)
`K::a_4@2.2GeV`	\(a^{K}_{4}(2.2\,\mathrm{GeV})\)	-0.0089	\(1\)
`B->K^*::f_Kstar_par`	\(f^{K^*}_{\parallel}\)	0.217	\(\textrm{GeV}\)
`B->K^*::f_Kstar_perp@2GeV`	\(f^{K^*}_{\perp}(2\,\mathrm{GeV})\)	0.173	\(\textrm{GeV}\)
`B_s->phi::f_phi_par`	\(f^{phi}_{\parallel}\)	0.233	\(\textrm{GeV}\)
`B_s->phi::f_phi_perp@2GeV`	\(f^{phi}_{\perp}(2\,\mathrm{GeV})\)	0.191	\(\textrm{GeV}\)
`B::1/lambda_B_p`	\(1/\lambda_{B,+}\)	2.1739	\(\textrm{GeV}^{-1}\)
`B::LambdaBar`	\(\bar\Lambda\)	0.5	\(\textrm{GeV}\)
`B::lambda_E^2`	\(\lambda_E^2\)	0.03	\(\textrm{GeV}^2\)
`B::lambda_H^2`	\(\lambda_H^2\)	0.06	\(\textrm{GeV}^2\)
`B_u::omega_0@FLvD2022`	\(\omega_0\)	0.5	\(\textrm{GeV}\)
`B_u::mu_0@FLvD2022`	\(\mu_0\)	1.0	\(\textrm{GeV}\)
`B_u::a^phi+_0@FLvD2022`	\(a_0\)	1.0	\(1\)
`B_u::a^phi+_1@FLvD2022`	\(a_1\)	0.0	\(1\)
`B_u::a^phi+_2@FLvD2022`	\(a_2\)	0.0	\(1\)
`B_u::a^phi+_3@FLvD2022`	\(a_3\)	0.0	\(1\)
`B_u::a^phi+_4@FLvD2022`	\(a_4\)	0.0	\(1\)
`B_u::a^phi+_5@FLvD2022`	\(a_5\)	0.0	\(1\)
`B_u::a^phi+_6@FLvD2022`	\(a_6\)	0.0	\(1\)
`B_u::a^phi+_7@FLvD2022`	\(a_7\)	0.0	\(1\)
`B_u::a^phi+_8@FLvD2022`	\(a_8\)	0.0	\(1\)
`B_s::1/lambda_B_p`	\(1/\lambda_{B_s,+}\)	2.0	\(\textrm{GeV}^{-1}\)
`B_s::lambda_E^2`	\(\lambda_E^2(B_s)\)	0.03	\(\textrm{GeV}^2\)
`B_s::lambda_H^2`	\(\lambda_H^2(B_s)\)	0.06	\(\textrm{GeV}^2\)

Parameters in the Heavy Quark Expansion

Qualified Name	Representation	Default Value	Unit
`HQET::lambda_1`	\(\lambda_1\)	-0.2	\(\textrm{GeV}^2\)
`HQET::lambda_2`	\(\lambda_2\)	0.12	\(\textrm{GeV}^2\)
`B->B::mu_pi^2@1GeV`	\(\mu_\pi^2(1\,\mathrm{GeV})\)	0.45	\(\textrm{GeV}^2\)
`B->B::mu_G^2@1GeV`	\(\mu_G^2(1\,\mathrm{GeV})\)	0.35	\(\textrm{GeV}^2\)
`B->B::rho_D^3@1GeV`	\(\rho_D^3(1\,\mathrm{GeV})\)	0.2	\(\textrm{GeV}^3\)
`B->B::rho_LS^3@1GeV`	\(\rho_{LS}^3(1\,\mathrm{GeV})\)	-0.15	\(\textrm{GeV}^3\)
`Lambda_b->Lambda_b::mu_pi^2@1GeV`	\(\mu_\pi^2(1\,\mathrm{GeV})\)	0.5	\(\textrm{GeV}^2\)
`Lambda_b->Lambda_b::rho_D^3@1GeV`	\(\rho_D^3(1\,\mathrm{GeV})\)	0.17	\(\textrm{GeV}^2\)

Parameters of the ee -> ccbar scattering processes

Qualified Name	Representation	Default Value	Unit
`ee->ccbar::Rconstant`	\(R_{uds}\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::exclusive_norm`	\(N_\textrm{excl}\)	1.0	\(\textrm{undefined}\)
`ee->ccbar::effective_mass`	\(m_\textrm{eff}\)	0.1	\(\textrm{undefined}\)
`ee->ccbar::q_0`	\(q_0(e^+e^-\to c\bar{c})\)	0.1	\(\textrm{undefined}\)
`ee->ccbar::c(e^+e^-,e^+e^-)`	\(c(e^+e^-, e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(e^+e^-,eff(Jpsi))`	\(c(e^+e^-, \mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(e^+e^-,eff(2S))`	\(c(e^+e^-, \mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(e^+e^-,eff(3770))`	\(c(e^+e^-, \mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(e^+e^-,D^0Dbar^0)`	\(c(e^+e^-, D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(e^+e^-,D^+D^-)`	\(c(e^+e^-, D^+D^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(Jpsi),e^+e^-)`	\(c(\mathrm{eff}_{J/\psi}, e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(Jpsi),eff(Jpsi))`	\(c(\mathrm{eff}_{J/\psi}, \mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(Jpsi),eff(2S))`	\(c(\mathrm{eff}_{J/\psi}, \mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(Jpsi),eff(3770))`	\(c(\mathrm{eff}_{J/\psi}, \mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(Jpsi),D^0Dbar^0)`	\(c(\mathrm{eff}_{J/\psi}, D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(Jpsi),D^+D^-)`	\(c(\mathrm{eff}_{J/\psi}, D^+D^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(2S),e^+e^-)`	\(c(\mathrm{eff}_{\psi(2S)}, e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(2S),eff(Jpsi))`	\(c(\mathrm{eff}_{\psi(2S)}, \mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(2S),eff(2S))`	\(c(\mathrm{eff}_{\psi(2S)}, \mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(2S),eff(3770))`	\(c(\mathrm{eff}_{\psi(2S)}, \mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(2S),D^0Dbar^0)`	\(c(\mathrm{eff}_{\psi(2S)}, D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(2S),D^+D^-)`	\(c(\mathrm{eff}_{\psi(2S)}, D^+D^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(3770),e^+e^-)`	\(c(\mathrm{eff}_{\psi(3770)}, e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(3770),eff(Jpsi))`	\(c(\mathrm{eff}_{\psi(3770)}, \mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(3770),eff(2S))`	\(c(\mathrm{eff}_{\psi(3770)}, \mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(3770),eff(3770))`	\(c(\mathrm{eff}_{\psi(3770)}, \mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(3770),D^0Dbar^0)`	\(c(\mathrm{eff}_{\psi(3770)}, D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(eff(3770),D^+D^-)`	\(c(\mathrm{eff}_{\psi(3770)}, D^+D^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^0Dbar^0,e^+e^-)`	\(c(D^0\bar{D}^0, e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^0Dbar^0,eff(Jpsi))`	\(c(D^0\bar{D}^0, \mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^0Dbar^0,eff(2S))`	\(c(D^0\bar{D}^0, \mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^0Dbar^0,eff(3770))`	\(c(D^0\bar{D}^0, \mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^0Dbar^0,D^0Dbar^0)`	\(c(D^0\bar{D}^0, D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^0Dbar^0,D^+D^-)`	\(c(D^0\bar{D}^0, D^+D^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^+D^-,e^+e^-)`	\(c(D^+D^-, e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^+D^-,eff(Jpsi))`	\(c(D^+D^-, \mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^+D^-,eff(2S))`	\(c(D^+D^-, \mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^+D^-,eff(3770))`	\(c(D^+D^-, \mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^+D^-,D^0Dbar^0)`	\(c(D^+D^-, D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::c(D^+D^-,D^+D^-)`	\(c(D^+D^-, D^+D^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(J/psi,e^+e^-)`	\(g^0(J/\psi,e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(J/psi,eff(Jpsi))`	\(g^0(J/\psi,\mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(J/psi,eff(2S))`	\(g^0(J/\psi,\mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(J/psi,eff(3770))`	\(g^0(J/\psi,\mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(J/psi,D^0Dbar^0)`	\(g^0(J/\psi,D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(J/psi,D^+D^-)`	\(g^0(J/\psi,D^+D^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(2S),e^+e^-)`	\(g^0(\psi(2S),e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(2S),eff(Jpsi))`	\(g^0(\psi(2S),\mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(2S),eff(2S))`	\(g^0(\psi(2S),\mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(2S),eff(3770))`	\(g^0(\psi(2S),\mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(2S),D^0Dbar^0)`	\(g^0(\psi(2S),D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(2S),D^+D^-)`	\(g^0(\psi(2S),D^+D^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(3770),e^+e^-)`	\(g^0(\psi(3770),e^+e^-)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(3770),eff(Jpsi))`	\(g^0(\psi(3770),\mathrm{eff}_{J/\psi})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(3770),eff(2S))`	\(g^0(\psi(3770),\mathrm{eff}_{\psi(2S)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(3770),eff(3770))`	\(g^0(\psi(3770),\mathrm{eff}_{\psi(3770)})\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(3770),D^0Dbar^0)`	\(g^0(\psi(3770),D^0\bar{D}^0)\)	0.0	\(\textrm{undefined}\)
`ee->ccbar::g0(psi(3770),D^+D^-)`	\(g^0(\psi(3770),D^+D^-)\)	0.0	\(\textrm{undefined}\)