$m_B$ and $f_{B^{(\star)}}$ in $2+1$ flavour QCD from a combination of continuum limit static and relativistic results

Conigli, Alessandro; Kuberski, Simon; Fritzsch, Patrick; Herdoiza, Gregorio; Frison, Julien; Heitger, Jochen; Sommer, Rainer; Simma, Hubert; Pena, Carlos; Gérardin, Antoine

TY  - EJOUR
AU  - Conigli, Alessandro
AU  - Frison, Julien
AU  - Fritzsch, Patrick
AU  - Gérardin, Antoine
AU  - Heitger, Jochen
AU  - Herdoiza, Gregorio
AU  - Kuberski, Simon
AU  - Pena, Carlos
AU  - Simma, Hubert
AU  - Sommer, Rainer
TI  - m<sub>B</sub> and f<sub>B<sup>(∗)</sup></sub> in 2+1 flavour QCD from a combination of continuum limit static and relativistic results
IS  - arXiv:2312.10017
M1  - PUBDB-2024-00394
M1  - arXiv:2312.10017
M1  - HU-EP-23/70
M1  - DESY-23-217
M1  - MS-TP-23-54
PY  - 2023
N1  - Lattice 2023 talk
AB  - We present preliminary results for B-physics from a combination of non-perturbative results in the static limit with relativistic computations satisfying am<sub>heavy</sub> << 1. Relativistic measurements are carried out at the physical b-quark mass using the Schrödinger Functional in a 0.5  fm box. They are connected to large volume observables through step scaling functions that trace the mass dependence between the physical charm region and the static limit, such that B-physics results can be obtained by interpolation; the procedure is designed to exactly cancel the troublesome α<sub>s</sub>(m<sub>heavy</sub>)<sup>n+γ</sup> corrections to large mass scaling. Large volume computations for both static and relativistic quantities use CLS N<sub>f</sub>=2+1 ensembles at m<sub>u</sub>=m<sub>d</sub>=m<sub>s</sub>, and with five values of the lattice spacing down to 0.039 fm. Our preliminary results for the b-quark mass and leptonic decay constants have competitive uncertainties, which are furthermore dominated by statistics, allowing for substantial future improvement. Here we focus on numerical results, while the underlying strategy is discussed in a companion contribution.
KW  - bottom: mass (INSPIRE)
KW  - scaling (INSPIRE)
KW  - flavor (INSPIRE)
KW  - quantum chromodynamics (INSPIRE)
KW  - lattice (INSPIRE)
KW  - lattice field theory (INSPIRE)
KW  - charm (INSPIRE)
KW  - nonperturbative (INSPIRE)
KW  - mass dependence (INSPIRE)
KW  - continuum limit (INSPIRE)
KW  - numerical calculations (INSPIRE)
KW  - B: leptonic decay (INSPIRE)
KW  - B*(5320) (INSPIRE)
LB  - PUB:(DE-HGF)25
DO  - DOI:10.3204/PUBDB-2024-00394
UR  - https://bib-pubdb1.desy.de/record/601882
ER  -

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