Charming New $B$-Physics
Abstract
We give a comprehensive account of the flavour physics of Beyond-Standard-Model (BSM) effects in transitions, considering the full set of 20 four-quark operators. We discuss the leading-order structure of their RG mixing with each other as well as the QCD-penguin, dipole, and FCNC semileptonic operators they necessarily mix with, providing compact expressions. We also provide the first complete results for BSM effects in the lifetime observables and , as well as for the semileptonic CP-asymmetry . From a global analysis, we obtain stringent constraints on 16 of the 20 BSM operators, including the 10 operators involving a right-handed strange quark. Focussing on CP-conserving new physics, the constraints correspond to NP scales of order 10 TeV in most cases, always dominated by exclusive and/or radiative -decays via RGE mixing. For the remaining four operators, including the two Standard-Model (SM) ones, larger effects are experimentally allowed, as previously noted in arXiv:1701.09183. We extend that paper's scope to the CP-violating case, paying attention to the impact on the decay rate and time-dependent CP-violation in . We show that quantifiable constraints arise for new physics in either of the two SM operators, with the uncertain non-perturbative matrix element of the colour-suppressed operator determined from the data. For new physics in the SM suppressed coefficient we find two perfectly viable, narrow bands of complex Wilson coefficients. Somewhat curiously, one of them contains a region where the fitted matrix element for the colour-suppressed operator is in agreement with naive factorization, contrarily to a widely held belief that large non-factorizable contributions to are implied by experimental data.
Keywords
Cite
@article{arxiv.1910.12924,
title = {Charming New $B$-Physics},
author = {S. Jäger and M. Kirk and A. Lenz and K. Leslie},
journal= {arXiv preprint arXiv:1910.12924},
year = {2023}
}
Comments
39 pages, 5 pdf figures, uses jheppub.sty. v2 adds ancillary Mathematica files. v3 matches journal version. v4 Add missing contributions to Gamma12, conclusions unchanged (see JHEP erratum), ancillary file updated