English

Instantons in Schwinger Model

High Energy Physics - Theory 2009-09-25 v1

Abstract

The known calculations of the fermion condensate <ψˉψ><\bar{\psi}\psi> and the correlator <ψˉψ(x) ψˉψ(0)><\bar{\psi}\psi(x) ~\bar{\psi}\psi(0)> have been interpreted in terms of {\em localized} instanton solutions minimizing the {\em effective} action. Their size is of order of massive photon Compton wavelength μ1\mu^{-1}. At high temperature, these instantons become quasistatic and present the 2-dimensional analog of the `walls' found recently in 4-dimensional gauge theories. In spite of the static nature of these solutions, they should not be interpreted as `thermal solitons' living in Minkowski space: the mass of these would-be solitons does not display itself in the physical correlators. At small but nonzero fermion mass, the high-T partition function of QED2QED_2 is saturated by the rarefied gas of instantons and antiinstantons with density m exp{Sinst.} = m exp{πT/μ}\propto m~\exp\{-S^{inst.}\}~=~m~\exp\{-\pi T/\mu\} to be confronted with the dense strongly correlated instanton-antiinstanton liquid saturating the partition function at T=0T=0.

Keywords

Cite

@article{arxiv.hep-th/9312110,
  title  = {Instantons in Schwinger Model},
  author = {A. V. Smilga},
  journal= {arXiv preprint arXiv:hep-th/9312110},
  year   = {2009}
}

Comments

Santa Barbara Preprint NSF-ITP-93-151