English

Charming New $B$-Physics

High Energy Physics - Phenomenology 2023-07-13 v4

Abstract

We give a comprehensive account of the flavour physics of Beyond-Standard-Model (BSM) effects in bccˉsb \to c \bar{c} s 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 ΔΓs\Delta \Gamma_s and τ(Bs)/τ(Bd)\tau(B_s)/\tau(B_d), as well as for the semileptonic CP-asymmetry aslsa_{sl}^s. From a global analysis, we obtain stringent constraints on 16 of the 20 BSM operators, including the 10 operators Q110cQ^{c\prime }_{1 \dots 10} 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 BB-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 BdJ/ψKSB_d \to J/\psi K_S. 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 C1cC^c_1 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 BdJ/ψKSB_d \to J/\psi K_S 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

R2 v1 2026-06-23T11:57:39.851Z