The nonleptonic decays of double-charmed baryon cc+ within the nonrelativistic quark model

Abstract

In this work, we investigate the two-body nonleptonic decays of double-charmed baryon cc+ within a nonrelativistic quark model, in which the nonfactorizable amplitudes contributed by W-exchange diagrams are evaluated under pole model assumption. To reduce sensitivity of decay amplitudes to arbitrary choice of baryon wave functions, we adopted charmed baryon wave functions obtained by solving the Schr\"odinger equation with a nonrelativistic quark potential model. Our results show that the branching fractions of CF decays cc+c0π+ and c()+π+, as well as the SCS decays cc+c0K+, cc++K-, c+η and c+K0 can reach up to a few percents. Particularly for the cc+c0K+ mode, owing to the large factorizable amplitude and constructive pole contributions, the branching fraction is comparable to CF decays. These decay modes can serve as the discovery channels for the double-charmed baryon cc+ in future experiments like LHCb and Belle II.

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