Singly Cabibbo-suppressed hadronic decays of c+

Abstract

We study singly Cabibbo-suppressed two-body hadronic decays of the charmed baryon c+, namely, c+ K+, pπ0, pη, nπ+,0K+,+ K0. We use the measured rate of c+ pφ to fix the effective Wilson coefficient a2 for naive color-suppressed modes and the effective number of color Nc eff. We rely on the current-algebra approach to evaluate W-exchange and nonfactorizable internal W-emission amplitudes, that is, the commutator terms for the S-wave and the pole terms for the P-wave. Our prediction for c+ pη is in excellent agreement with the BESIII measurement. The pη (pπ0) mode has a large (small) rate because of a large constructive (destructive) interference between the factorizable and nonfactorizable amplitudes for both S- and P-waves. Some of the SU(3) relations such as M(c+ nπ+)=2M(c+ pπ0) derived under the assumption of sextet dominance are not valid for decays with factorizable terms. Our calculation indicates that the branching fraction of c+ nπ+ is about 3.5 times larger than that of c+ pπ0. Decay asymmetries are found to be negative for all singly Cabibbo-suppressed modes and range from -0.56 to -0.96.