Electric and magnetic timelike form factors of hyperons at large transfer momentum

Abstract

There has been considerable progress in the study of the electromagnetic form factors of baryons in the timelike region, through electron-positron scattering reactions (e+ e- B B), in the last two decades. Timelike experiments reveal information about the distribution of charge and magnetism inside the hyperons that cannot be obtained in spacelike experiments (electron scattering on baryons). Motivated by the novel data, we extend to the timelike region, without any further parameter fitting, a covariant quark model developed for the spacelike region that takes into account the meson cloud excitations of the baryon cores. We use the formalism to calculate the electric (GE) and magnetic (GM) form factors of spin 1/2 baryons in the large square transfer momentum q2 region. Our calculations are compared with the available data from CLEO and BESIII above q2=10 GeV2. We conclude that our predictions for the effective form factors (combination between GE and GM) are in good agreement with the q2 > 15 GeV2 data for Λ, Σ+, Σ0, Ξ- and Ξ0. Upcoming data for Σ- can be used to further test our predictions. We also compare our model calculations with the available data for ratio |GE/GM|. We conclude that the present q2 data range is not large enough to test our calculations, but that a more definitive test can be performed by upcoming data above q2=20 GeV2.