Mixing angle and decay constants of JP=1+ heavy-light mesons

Abstract

The mass spectra, mixing angle and decay constants of the JP=1+ heavy-light mesons are systematically studied within the framework of the Bethe-Salpeter equation (BSE). The full 1+ Salpeter wave function is given for the first time. The mixing between the 1+- and 1++ in the 1+ heavy-light systems are automatically determined by the dynamics in the equation without any man-made mixing. The results indicate that in a rigorous study there exists the phenomenon of mixing angle inversion or mass inversion within 1+ heavy-light doublet, which is sensitive to the s-quark mass for the charmed mesons and u- or d-quark masses for the bottomed mesons. This inversion phenomenon can answer the question of why we have confused mixing angles in the literature and partly explain the lower mass of Ds1(2460) compared to that of Ds1(2536). The decay constants are also presented and can behave as a good quantity to distinguish the 1+ doublet in heavy-light mesons. This study indicates that the light-quark mass may play an important role in deciding the mass order, mixing angle, and decay constant relation between the jl=32 and jl=12 heavy-light mesons.