English

Pion off-shell electromagnetic form factors: data extraction and model analysis

High Energy Physics - Phenomenology 2020-01-01 v4 Nuclear Theory

Abstract

We investigate the pion electromagnetic half off-shell form factors, which parametrize the matrix element of the charged pion electromagnetic current with one leg off-mass-shell and the other leg on-mass-shell, using an exactly solvable manifestly covariant model of a (3+1)(3+1) dimensional fermion field theory. The model provides a 3D imaging of the two off-shell pion form factors F1F_1 and F2F_2 as a function of (Q2,t)(Q^2,t), which are related to each other satisfying the Ward-Takahashi identity. The normalization of the renormalized charge form factor F1F_1 is fixed by F1(Q2=0,t=mπ2)=1F_1(Q^2=0, t=m^2_\pi)=1 while the other form factor F2F_2 vanishes, i.e. F2(Q2,t=mπ2)=0F_2(Q^2, t=m^2_\pi)=0 for any value of Q2Q^2 due to the time-reversal invariance of the strong interaction. We define the new form factor g(Q2,t)=F2(Q2,t)/(tmπ2)g(Q^2,t)=F_2(Q^2,t)/(t-m^2_\pi) and find that g(Q2,t)g(Q^2,t) can be measurable in the on-mass-shell limit. In particular, g(Q2=0,t=mπ2)g(Q^2=0, t=m^2_\pi) is related with the pion charge radius. We also compare our form factors with the data extracted from the pion electroproduction reaction for both the off-shell region (t<0t<0) and the on-shell limit (tmπ2t \rightarrow m_\pi^2).

Keywords

Cite

@article{arxiv.1908.01185,
  title  = {Pion off-shell electromagnetic form factors: data extraction and model analysis},
  author = {Ho-Meoyng Choi and T. Frederico and Chueng-Ryong Ji and J. P. B. C. de Melo},
  journal= {arXiv preprint arXiv:1908.01185},
  year   = {2020}
}

Comments

typo corrected; revision for the discussion in Sec. III.; 11pages, 10 figures; version to appear in Physical Review D

R2 v1 2026-06-23T10:38:54.525Z