Semileptonic weak decays of anti-triplet charmed baryons in the light-front formalism

Abstract

We systematically study the semileptonic decays of Bc Bn+ in the light-front constituent quark model, where Bc represent the anti-triplet charmed baryons of (c0,c+,c+) and Bn correspond to the octet ones. We determine the spin-flavor structures of the constituents in the baryons with the Fermi statistics and calculate the decay branching ratios ( Bs) and averaged asymmetry parameters (αs) with the helicity formalism. In particular, we find that B( c+ e+ e, ne+ e)=(3.551.04, 0.360.15)\%, B( c+ 0 e+ e,0 e+ e, e+ e)=(11.33.35), 0.330.09,0.120.04\% and B( c0 - e+ e,- e+ e)=(3.490.95,0.220.06)\%. Our results agree with the current experimental data. Our prediction for B( c+ n e+ e) is consistent with those in the literature, which can be measured by the charm-facilities, such as BESIII and BELLE. Some of our results for the c+(0) semileptonic channels can be tested by the experiments at BELLE as well as the ongoing ones at LHCb and BELLEII.