Study on the mixing of c and 'c by the transition b(')c

Abstract

Recently, the LHCb collaboration has observed the decays 0b+cD-s and -b0cD-s. They measured the relative branching fractions times the ratio of beauty-baryon production cross-sections R(0bb)σ(b0)σ(0b)×B(0b+cD-s)B(0b+cD-s) and R(-bb)σ(-b)σ(0b)×B(-b0cD-s)B(0b+cD-s). Once the ratio σ(b0)σ(0b) or σ(b-)σ(0b) is known, one can determine the relative branching fractions which can be used to exam the mixing of c and 'c. In previous literature, c and 'c were assumed to belong to SU(3)F antitriple and sextet, respectively. However, recent experimental measurements such as the ratio (cccπ+)/(cc'cπ+) indicate the spin-flavor structures of c and 'c are a mixture of 3c and 6c. The exact value of mixing angle θ is still under debate. In theoretical models, the mixing angle was fitted to be about 16.272.30 or 85.542.30 based on decay channels cc (')cc . While in lattice calculation, a small angle (1.20.1) is preferred. To address such discrepancy and test the mixing of c and 'c, here we propose the analysis of semileptonic and non-leptonic decays of bc and b'c. We calculate the decay rate of bc and b'c based on light-front quark model and study the effect of the mixing angle on the ratios of weak decays bc and b'c.....