Semirelativistic study on the semileptonic decays of Bq mesons to orbital excited heavy Tensors

Abstract

Based on the method of solving the complete Salpeter equation, we study the semileptonic decays of a 0- heavy meson to 1P, 2P, or 3P heavy tensor mesons, Bq ( c q)(nP) + (q=u,d,s,c;n=1,2,3). The obtained branching ratio of B (B → D2(2460)+ ) agrees with the experimental data. We predict B(Bs0 → Ds2-(1P) + )=3.76× 10-3 and B(Bc+ → c2(1P)+ )=1.82× 10-3. The branching ratios of decays to 2P and 3P final states are found to be very small. The ratios R(D2 0)=0.045, R(Ds2)=0.048 and R(c2)=0.059 are also obtained. This study focuses on the contribution of relativistic corrections. The wave function of the pseudoscalar includes non-relativistic S-wave and relativistic P-wave. While for a tensor, it contains non-relativistic P-wave and relativistic P, D and F waves in its wave function. We find the individual contributions of relativistic partial waves are significant in the decay B D2 (2460)+ , but the overall contribution of the relativistic effect is 24.4\%, which is small due to cancellation. Similarly, for the decay Bs0 → Ds2-(1P) + , the contribution of the relativistic effect is 28.8\%. While for Bc+ → c2(1P)+ , the individual contributions of relativistic partial waves and the overall relativistic correction are both small, the later of which is 22.1\%.

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