Ξcc++-Ξcc+ Transitions as a Two-Charm-Selective Portal to Ultra-Low-Q Charged Currents

Abstract

The recent LHCb observation of Ξcc+ opens the ultra-low-Q transition Ξcc++Ξcc+ as an experimentally motivated null test of charged-current new physics. Our two- and three-body analyses show sensitivity to effective baryon-level couplings of O(10-6-10-7) for MeV-scale recoil momenta. We establish a practical no-go result for a universal light charged scalar ϕ+: with a first-generation ϕ+ u d coupling, existing electroweak-precision and beta-decay constraints are parametrically stronger than the projected LHCb sensitivity. We then identify a two-charm-selective charged-current portal whose leading operator has a nonzero matrix element in doubly charmed baryons but vanishes at leading order in pions, nucleons, nuclei, and singly charmed mesons. In this class of models, Ξcc++Ξcc+ transitions can provide the leading direct probe of the portal interaction.