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Finite Density $QED_{1+1}$ Near Lefschetz Thimbles (1807.02027v1)

Published 5 Jul 2018 in hep-lat, cond-mat.stat-mech, and cond-mat.str-el

Abstract: One strategy for reducing the sign problem in finite-density field theories is to deform the path integral contour from real to complex fields. If the deformed manifold is the appropriate combination of Lefschetz thimbles -- or somewhat close to them -- the sign problem is alleviated. Gauge theories lack a well-defined thimble decomposition, and therefore it is unclear how to carry out a generalized thimble method. In this paper we discuss some of the conceptual issues involved by applying this method to $QED_{1+1}$ at finite density, showing that the generalized thimble method yields correct results with less computational effort than standard methods.