The B Anomalies and non-SMEFT New Physics

Abstract

The modern viewpoint is that the Standard Model is the leading part of an effective field theory that obeys the symmetry SU(3)C × SU(2)L × U(1)Y. Since the discovery of the Higgs boson, it is generally assumed that this symmetry is realized linearly (SMEFT), but a nonlinear realization (e.g., HEFT) is still possible. The two differ in their predictions for the size of certain low-energy dimension-6 four-fermion operators: for these, HEFT allows O(1) couplings, while in SMEFT they are suppressed by a factor v2/ NP2, where v is the Higgs vev. In this talk, I argue that (i) such non-SMEFT operators contribute to both b s + - and b c \,τ- τ, transitions involved in the present-day B anomalies, (ii) the contributions to b s + - are constrained to be small, at the SMEFT level, and (iii) the contribution to b c \,τ- τ can be sizeable. I show that the angular distribution in B D* ( D π') \, τ- ( π- τ) τ contains enough information to extract the coefficients of all new-physics operators. The measurement of this angular distribution can tell us if non-SMEFT new physics is present.

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