We calculate the Λb→Λc∗(2595)lν and Λb→Λc∗(2625)lν form factors and decay rates for all possible b→clνˉ four-Fermi interactions in and beyond the Standard Model (SM), including nonzero charged lepton masses and terms up to order O(αs,1/mc,b) in the heavy quark effective theory (HQET). We point out a subtlety involving the overcompleteness of the representation of the spin-parity 1/2+→3/2− antisymmetric tensor form factors, relevant also to other higher excited-state transitions, and present a general method for the counting of the physical form factors for any hadronic transition matrix element and their matching onto HQET. We perform a preliminary fit of a simple HQET-based parametrization of the Λb→Λc∗ form factors at O(αs,1/mc,b) to an existing quark model, providing preliminary predictions for the lepton universality ratios R(Λc∗) beyond the SM. Finally, we examine the possible incompatibility of recent lattice QCD results with expectations from the heavy-quark expansion and available experimental data.
@article{arxiv.2105.09330,
title = {Form Factor Counting and HQET Matching for New Physics in $\Lambda_b \to \Lambda_c^*l\nu$},
author = {Michele Papucci and Dean J. Robinson},
journal= {arXiv preprint arXiv:2105.09330},
year = {2022}
}