Version 1.0.7

We have just released version 1.0.7, which you can find here.

There have been 77 commits since version v1.0.6, which can be inspected here. The changes include

  • removing superfluous warnings and adapting test cases (D. Leljak)
  • removing redundant options in existing constraints (D. Leljak)
  • implementing the SignalPDF for B->gamma l nu processes (M. Reboud)
  • fixing the handling of fixed parameters across the Python backend (F. Novak)
  • fixing the handling of artificially restricted multivariate Gaussian constraints (M. Reboud)
  • exporting BGL pseudo observables (D. van Dyk)
  • removing the remnants of HDF5/h5py dependencies (D. van Dyk)
  • switching to use pre-commit tests and applying needed corrections (D. van Dyk)
  • fixing various minor bugs in the Python side (S. Kürten, P. Lüghausen, F. Novak, L. Gaertner)
  • adapting B->pi LCSRs to B_{d,s}->{pi,K} LCSRs following [DM:2008A] (C. Bolognani)
  • adding pseudo observables related to the leading-twist B-meson LCDA (P. Lüghausen)
  • adapt all local b->s form factors for a global dispersive analysis (M. Reboud)

Contributors of these commits are:

  • Carolina Bolognani
  • Lorenz Gaertner
  • Stephan Kürten
  • Domagoj Leljak
  • Philip Lüghausen
  • Filip Novak
  • Méril Reboud
  • Danny van Dyk

Version 1.0.6

We have just released version 1.0.6, which you can find here.

There have been 109 commits since version 1.0.5, which can be inspected here. The changes include

  • implementing the polylogarithms Li22 (V. Kuschke)
  • extending the sbnunu sector of the WET (L. Gärtner)
  • adding B -> K HPQCD 2022 form factors (M. Reboud)
  • adding kaon LCDAs (C. Bolognani)
  • extending BGL parameterization to B -> D^(*) form factor and adding FNAL-MILC 2021 results (D. van Dyk)
  • adding the possibility of using kinematic variables in the observable parser (M. Reboud)
  • implementing lepton masses in Lb -> L*ll observables (M. Reboud)
  • interfacing dynesty to enable nested sampling (F. Novak)
  • implementing FLvD 2022 parametrization of the B meson LCDAs (P. Lüghausen)
  • switching to C++ 20 (D. van Dyk)
  • implementing B -> gamma^* form factors à la KKvDZ 2022 (S. Kürten)
  • implementing B -> l l l’ nu decays (S. Kürten)
  • implementing P -> P and P -> V form factors à la BFW 2010 (M. Reboud)
  • improving the calculation of Verblunsky coefficients (M. Reboud)
  • and correcting several errors and typos.

Contributors of these commits are:

  • Carolina Bolognani
  • Lorenz Gärtner
  • Viktor Kuschke
  • Stephan Kürten
  • Philip Lüghausen
  • Filip Novak
  • Méril Reboud
  • Danny van Dyk

Version 1.0.5

We have just released version 1.0.5, which you can find here.

There have been 2 commits since version 1.0.4, which can be inspected here. The changes include

  • fixing the PyPI release workflow (D. van Dyk)
  • updating the README (M. Reboud)

Contributors of these commits are:

  • Méril Reboud
  • Danny van Dyk

Version 1.0.4

We have just released version 1.0.4, which you can find here.

There have been 64 commits since version 1.0.3, which can be inspected here. The changes include

  • rewriting the cubic spline interpolation (P. Lüghausen)
  • adding a framework to run analysis in a reproducible way (D. van Dyk)
  • removing obsolete (and reorder) form-factor parametrizations (D. van Dyk)
  • implementing nested sampling (F. Novak)
  • adding the parsing of options in the plotting framework (L. Gaertner)
  • improving the UniformBound constraints for e.g. dispersive bounds theory constraints (M. Reboud)
  • implementing 1/2+ -> 3/2^- form-factors and phenomenology of Lambda_b -> Lambda(1520) ll/gamma decays (M. Reboud)

Contributors of these commits are:

  • Lorenz Gaertner
  • Viktor Kuschke
  • Philip Lüghausen
  • Filip Novak
  • Méril Reboud
  • Danny van Dyk

Version 1.0.3

We have just released version 1.0.3, which you can find here.

There have been 41 commits since version 1.0.2, which can be inspected here. The changes include

  • improving the documentation and its building (P. Lüghausen, M. Reboud, D.van Dyk)
  • adding a task to optimize the analysis (M. Reboud, D.van Dyk)
  • implementing a new parametrization for the non-local form-factors (M. Reboud)
  • implementing a class and basic tools for Lagrange polynomial (M. Reboud)
  • adding several experimental measurements of b->sll decays (M. Reboud)
  • Ensuring compatibility with pyton3.10 and Ubuntu 22.04 LTS (M. Reboud, D.van Dyk)

Contributors of these commits are:

  • Stephan Kürten
  • Viktor Kuschke
  • Philip Lüghausen
  • Méril Reboud
  • Danny van Dyk