Distribution Amplitudes of Pseudoscalar Mesons within the Light-Front Quark Model

Abstract

In this paper, we investigate the distribution amplitudes (DAs) of pseudoscalar mesons within the light-front quark model (LFQM), and the n-th Gegenbauer moment an(μ), -moment n and transverse moment kn are also studied. Two parameter sets are adopted by fitting to mesonic decay constants or mass spectra, leading to distinct schemes for numerical analysis. Our results reveal several key insights: (1) Under scheme-I, the second Gegenbauer moment for the pion, a2,π = 0.054, is in excellent agreement with predictions from the platykurtic model and the nonlocal chiral quark model (NL). Meanwhile, scheme-II yields a2,π = 0.126, which is consistent with lattice QCD (LQCD), Dyson-Schwinger equation (DSE) and data-driven light-cone sum rules (LCSR) analyses. Furthermore, we observe that φ2,π = φP3,π with the replacement M M0. (2) Flavor symmetry breaking effects are found to be more significant in higher-twist DAs, with a notable relation a1P≈ 2 a1 emerging in heavy meson systems. (3) Interestingly, numerical analysis indicates that the transverse moment kn is twist-independent with the replacement M M0. Additionally, we propose an empirical scaling relation m0.61β1.10xp=0.67 to effectively describe the shape of DAs for heavy mesons. Collectively, these results demonstrate that mass asymmetry remarkably influences DAs and kinds of moments, these theoretical predictions will be tested in future experiments.