Light-cone Distribution Amplitudes of Vector Mesons within the Self-Consistent Light-front Quark Model

Abstract

In this paper, we investigate the twist-2 and twist-3 light-cone distribution amplitudes (LCDAs) of vector mesons within the self-consistent light-front quark model, and the nth Gegenbauer moment an(μ), ξ-moment ξn() and transverse moment kn() are also carried out. Adopting the parameter set fixed by confinements from the mesonic decay constants, we perform the numerical analysis and the results reveal several key insights: (i) The flavor symmetry breaking effects are more pronounced in the twist-3 LCDAs of vector mesons, which leads to the establishment of a1>a1 and ξn> ξn. This is consistent with previous findings in research for the LCDAs of pseudoscalar mesons. (ii) For vector mesons, the twist dependence decreases in the heavy quark limit which lead to ϕ2(x)ϕ3(x). For pseudoscalar and vector mesons composed of the same quark constituents, their LCDAs with the same twist exhibit similarity and gradually converge as the increasing of quark mass, i.e., ϕ2A(x)ϕ2(x) and ϕ3P(x)ϕ3(x) in mq→∞. In the heavy-quark limit within the self-consistent LFQM framework, we find an approximate correlated spin-twist independence pattern, with ϕ2A(x) ϕ2(x) ≈ϕ3P(x) ϕ3(x), resulting from the suppression of twist dependence and the approximate spin independence between pseudoscalar and vector mesons.