The light front wave functions and diffractive electroproduction of vector mesons

TL;DR

This paper derives the light front wave functions of the $ ho$ and J/$ ho$ mesons using Dyson-Schwinger and Bethe-Salpeter equations, then applies them to analyze diffractive electroproduction, showing general agreement with experimental data.

Contribution

First extraction of $ ho$ and J/$ ho$ meson light front wave functions from DS-BSEs and application to diffractive electroproduction analysis.

Findings

$ ho$ and J/$ ho$ wave functions differ in profile due to quark mass effects.

$ ho$ wave functions contribute less than 50% to normalization, indicating higher Fock-states.

Calculated cross sections mostly agree with experimental data, with some discrepancies at low photon virtuality.

Abstract

We determine the leading Fock-state light front wave functions (LF-LFWFs) of the $\rho$ and J/$\psi$ mesons, for the first time from the Dyson-Schwinger and Bethe-Salpeter equations (DS-BSEs) approach. A unique advantage of this method is that it renders a direct extraction of LF-LFWFs in presence of a number of higher Fock-states. Modulated by the current quark mass and driven by the dynamical chiral symmetry breaking (DCSB), we find the $\rho$ and $J/\psi$ LF-LFWFs different in profile, i.e., the former are broadly distributed in $x$ (the longitudinal light-cone momentum fraction of meson carried by quark) while the latter are narrow. Moreover, the $\rho$ LF-LFWFs contribute less than 50% to the total Fock-state normalization, suggesting considerable higher Fock-states in $\rho$. We then use these LF-LFWFs to study the diffractive $\rho$ and $J/\psi$ electroproduction within the dipole picture. The calculated cross section shows general agreement with HEAR data, except for growing discrepancy in $\rho$ production at low photon virtuality. Our work provides a first dipole picture analysis on diffractive $\rho$ electroproduction that confronts the parton nature of the light (anti)quarks.