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Ξ›bβ†’Ξ›β„“+β„“βˆ’\Lambda_b \to \Lambda \ell^+ \ell^- form factors, differential branching fraction, and angular observables from lattice QCD with relativistic bb quarks

Abstract

Using (2+1)(2+1)-flavor lattice QCD, we compute the 10 form factors describing the Ξ›bβ†’Ξ›\Lambda_b \to \Lambda matrix elements of the bβ†’sb \to s vector, axial vector, and tensor currents. The calculation is based on gauge field ensembles generated by the RBC and UKQCD Collaborations with a domain-wall action for the uu, dd, and ss quarks and the Iwasaki gauge action. The bb quark is implemented using an anisotropic clover action, tuned nonperturbatively to the physical point, and the currents are renormalized with a mostly nonperturbative method. We perform simultaneous chiral, continuum, and kinematic extrapolations of the form factors through modified zz expansions. Using our form factor results, we obtain precise predictions for the Ξ›bβ†’Ξ›(β†’p+Ο€βˆ’)ΞΌ+ΞΌβˆ’\Lambda_b \to \Lambda(\to p^+ \pi^-) \mu^+ \mu^- differential branching fraction and angular observables in the Standard Model.Comment: 33 pages, 9 figures, form factor parameters included as ancillary file

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