Medium effects on the electromagnetic form factors of the meson

Abstract

The dynamics of partons inside the light meson is found to be essential for its properties and internal structure, both in free space and in the nuclear medium. In this paper, we systematically investigate the in-medium structure changes of + mesons within the covariant Nambu-Jona-Lasinio (NJL) model, utilizing the Schwinger proper-time regularization scheme. We solve the Bethe-Salpeter equations to guarantee the bound meson-state condition. At the quark level, the nuclear medium effects are also derived within the same NJL model to maintain a consistent approach with the in-medium + meson electromagnetic form factors. To this end, we analyze the spacelike electromagnetic form factors of the + meson in free space and in a nuclear medium. We find that the charge radius and quadrupole moment of the + meson increase with increasing nuclear matter density, while the magnetic moment decreases, in agreement with the existing previous theoretical predictions. The enhancement of the + meson charge radius at normal density relative to that in free space is about 11\% (0.08 fm), while the reduction of + meson magnetic moment is about 8\% (0.20 μN). Our predictions for the charge radius, magnetic moment, and quadrupole moment of the + meson in both free space and nuclear medium, remain challenging to be verified experimentally.