Form factors of V' V'' transition within the light-front quark models

Abstract

In this paper, we calculate the matrix element and form factors of vector-to-vector (V' V') transition within the standard light-front~(SLF) and covariant light-front~(CLF) quark models~(QMs), and investigate the self-consistency and Lorentz covariance of the CLF QM within two types of correspondences between the manifest covariant Bethe-Salpeter approach and the LF approach. The zero-mode and valence contributions to the form factors of V' V' transition in the CLF QM and their relation to the SLF results are analyzed, and the main conclusions obtained via the decay constants of vector and axial-vector mesons and form factors of P V transition in the previous works are confirmed again. Furthermore, we present our numerical predictions for the form factors of c (q,s) (q=u,d) induced D* (K*\,,), D*s (φ\,,K*), J/ (D*s\,,D*), B*c (B*s\,,B*) transitions and b (q,s,c) induced B* (D*\,,K*\,,), B*s (D*s\,,φ\,,K*), B*c (J/\,,D*s\,,D*), (1S) (Bc*\,,Bs*\,,B*) transitions, which can be applied further to the relevant phenomenological studies of meson decays.