Tensor form factors of P P,\,S,\,V and A transitions within the standard and the covariant light-front approaches

Abstract

In this paper, we investigate the tensor form factors of P P,\,S,\,V and A transitions within the standard light-front (SLF) and the covariant light-front (CLF) quark models (QMs). The self-consistency and Lorentz covariance of CLF QM are analyzed via these quantities, and the effects of zero-mode are discussed. For the P V and A transitions, besides the inconsistence between the results extracted via longitudinal and transverse polarization states, which is caused by the residual ω-dependent spurious contributions, we find and analyze a "new" self-consistence problem of the traditional CLF QM, which is caused by the different strategies for dealing deal with the trace term in CLF matrix element. A possible solution to the problems of traditional CLF QM is discussed and confirmed numerically. Finally, the theoretical predictions for the tensor form factors of some c q,\,s and b q,\,s\,,c (q=u,d) induced P P,\,S,\,V and A transitions are updated within the CLF QM with a self-consistent scheme.