Effective action and vacuum expectations in nonlinear $\sigma$ model
Abstract
The equations for effective action for nonlinear model are derived using DeWitt method in two forms - for generator of vertex parts and for generator of weakly connected parts . Loop-expansion solutions to these equations are found. It is shown that vacuum expectation values for various quantities including divergence of a N\"{o}ther current, trace of the energy-momentum tensor and so on, can be calculated by this method. Also it is shown that vacuum expectation to the sigma-field is determined by an explicit combination of tree Green function and classical solution. It is shown that the limit when coupling constant tends to zero is singular one.
Cite
@article{arxiv.1510.07367,
title = {Effective action and vacuum expectations in nonlinear $\sigma$ model},
author = {B. A. Fayzullaev},
journal= {arXiv preprint arXiv:1510.07367},
year = {2015}
}
Comments
A new set of equations for effective (quantum) action is proposed and solved up to one-loop approximation