The quasiclassical theory of the Dirac equation with a scalar-vector interaction and its applications in the theory of heavy-light mesons

Abstract

We construct a relativistic potential quark model of D, Ds, B, and Bs mesons in which the light quark motion is described by the Dirac equation with a scalar-vector interaction and the heavy quark is considered a local source of the gluon field. The effective interquark interaction is described by a combination of the perturbative one-gluon exchange potential VCoul(r)=-/r and the long-range Lorentz-scalar and Lorentz-vector linear potentials Sl.r.(r)=(1-λ)(σ r+V0) and Vl.r.(r)=λ(σ r+V0), where 0≤slantλ<1/2. Within the quasiclassical approximation, we obtain simple asymptotic formulas for the energy and mass spectra and for the mean radii of D, Ds, B, and Bs mesons, which ensure a high accuracy of calculations even for states with the radial quantum number nr 1. We show that the fine structure of P-wave states in heavy-light mesons is primarily sensitive to the choice of two parameters: the strong-coupling constant αs and the coefficient λ of mixing of the long-range scalar and vector potentials Sl.r.(r) and Vl.r.(r). The quasiclassical formulas for asymptotic coefficients of wave function at zero and infinity are obtained.