Baryonic form factors of light pseudoscalar mesons

Abstract

Employing the Bethe-Salpeter formalism, we present a computation of the space-like baryonic form factor for the pion and kaon. In the exact isospin-symmetric limit this observable is forbidden by G-parity, so that any nonzero signal constitutes a direct probe of the quark mass difference md - mu. The form factors are evaluated in the impulse approximation using fully dressed quark propagators, meson Bethe-Salpeter amplitudes, and a dressed baryon-current vertex constrained by the vector Ward-Takahashi identity. The baryonic radius computed with this method for the pion is given by r\! B2π+1/2 = 0.043(2) fm, and is consistent with the available dispersive benchmarks. Our predictions for the kaons, namely r\!B2K+1/2 = 0.265(7) fm and r\!B2K01/2 = 0.262(7) fm, indicate a larger spatial extent than in the pion case; these results have no dispersive counterparts, and are compatible with chiral QCD models.