Hidden topological angles and Lefschetz thimbles
Abstract
We demonstrate the existence of hidden topological angles (HTAs) in a large class of quantum field theories and quantum mechanical systems. HTAs are distinct from theta-parameters in the lagrangian. They arise as invariant angle associated with saddle points of the complexified path integral and their descent manifolds (Lefschetz thimbles). Physical effects of HTAs become most transparent upon analytic continuation in to non-integer number of flavors, reducing in the integer limit to a valued phase difference between dominant saddles. In super Yang-Mills theory we demonstrate the microscopic mechanism for the vanishing of the gluon condensate. The same effect leads to an anomalously small condensate in a QCD-like gauge theory with fermions in the two-index representation. The basic phenomenon is that, contrary to folklore, the gluon condensate can receive both positive and negative contributions in a semi-classical expansion. In quantum mechanics, a HTA leads to a difference in semi-classical expansion of integer and half-integer spin particles.
Cite
@article{arxiv.1502.06624,
title = {Hidden topological angles and Lefschetz thimbles},
author = {Alireza Behtash and Tin Sulejmanpasic and Thomas Schaefer and Mithat Unsal},
journal= {arXiv preprint arXiv:1502.06624},
year = {2015}
}
Comments
5 pages, 2 figures