Electromagnetic form factors of light vector mesons
Abstract
The electromagnetic form factors GE(q2), GM(q2), and GQ(q2), charge radii, magnetic and quadrupole moments, and decay widths of the light vector mesons rho+, K*+ and K*0 are calculated in a Lorentz-covariant, Dyson-Schwinger equation based model using algebraic quark propagators that incorporate confinement, asymptotic freedom, and dynamical chiral symmetry breaking, and vector meson Bethe-Salpeter amplitudes closely related to the pseudoscalar amplitudes obtained from phenomenological studies of pi and K mesons. Calculated static properties of vector mesons include the charge radii and magnetic moments: rrho+ = 0.61 fm, rK*+ = 0.54 fm, and r2K*0 = -0.048 fm2; murho+ = 2.69, muK*+ = 2.37, and muK*0 = -0.40. The calculated static limits of the rho-meson form factors are similar to those obtained from light-front quantum mechanical calculations, but begin to differ above q2 = 1 GeV2 due to the dynamical evolution of the quark propagators in our approach.
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