English

Polarization phenomena in process $e^++e^-\rightarrow N+\bar N+\gamma $

High Energy Physics - Phenomenology 2018-03-23 v2

Abstract

The emission of the hard photon by the initial state is considered. The nucleon polarization and the differential cross sections for some experimental conditions have been calculated. The case of the emission of the collinear (with respect to the direction of the electron beam momentum) photon is considered separately. The differential cross section, the nucleon polarization, the correlation coefficients for both polarized nucleons (provided the electron beam is unpolarized or longitudinally polarized), the transfer polarization from the longitudinally polarized electron beam to the nucleon have been calculated. The photon energy distribution for the reaction e+eh1h2γe^+e^-\to h_1h_2\gamma , where h1h_1 and h2h_2 are some hadrons for the case of the collinear photon, emitted in the initial state, has been calculated. As h1h2h_1h_2 final state we considered some channels, namely: two spinless mesons (for example, π+π,K+K\pi^+\pi^-, K^+K^-), two spin--one particles (for example, ρ+ρ,ddˉ\rho^+\rho^-, d\bar d), the πa1(1260)\pi a_1(1260) and Δ(1232)Nˉ\Delta(1232)\bar N channels. The photon energy distributions are calculated in terms of the form factors of the γh1h2\gamma^*\to h_1h_2 transition (γ\gamma^* is the virtual photon).

Keywords

Cite

@article{arxiv.1711.01830,
  title  = {Polarization phenomena in process $e^++e^-\rightarrow N+\bar N+\gamma $},
  author = {G. I. Gakh and N. P. Merenkov and M. I. Konchatnij and A. G. Gakh},
  journal= {arXiv preprint arXiv:1711.01830},
  year   = {2018}
}

Comments

24 pages, 1 figure, typos corrected, added references

R2 v1 2026-06-22T22:37:02.014Z