We studied the electromagnetic form factors (EMFFs) of Ac and the contributions of the quark and diquark currents to the EMFFs of Ac in the space-like region in the Bethe-Salpeter equation approach with instantaneou...We studied the electromagnetic form factors (EMFFs) of Ac and the contributions of the quark and diquark currents to the EMFFs of Ac in the space-like region in the Bethe-Salpeter equation approach with instantaneous approximation. In this picture, baryon Ac can be regarded as a two-body c(ud) system. We found that for different values of parameters the contribution of quark and diquark currents to the EMFFs of Ac is very different, while their total contribution to the EMFFs of Ac is similar. The EMFFs of ∧c are similar to those of other baryons (proton,≡ , and ∑+) with a peak at ω= 1, where ω=v'.v is the velocity transfer between the initial state (with velocity v) and the final state (with velocity vr) of Ac.展开更多
基金Supported by the Fundamental Research Funds for the Central Universities of China(31020170QD052)the Natural Science Basic Research Plan in Shaanxi Province of China(2018JQ1002)the National Natural Science Foundation of China(11775024,11575023)
文摘We studied the electromagnetic form factors (EMFFs) of Ac and the contributions of the quark and diquark currents to the EMFFs of Ac in the space-like region in the Bethe-Salpeter equation approach with instantaneous approximation. In this picture, baryon Ac can be regarded as a two-body c(ud) system. We found that for different values of parameters the contribution of quark and diquark currents to the EMFFs of Ac is very different, while their total contribution to the EMFFs of Ac is similar. The EMFFs of ∧c are similar to those of other baryons (proton,≡ , and ∑+) with a peak at ω= 1, where ω=v'.v is the velocity transfer between the initial state (with velocity v) and the final state (with velocity vr) of Ac.
