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Finite-Density Monte Carlo Calculations on Sign-Optimized Manifolds

arXiv:1804.00697 · doi:10.1103/PhysRevD.97.094510

Abstract

We present a general technique for addressing sign problems that arise in Monte Carlo simulations of field theories. This method deforms the domain of the path integral to a manifold in complex field space that maximizes the average sign (therefore reducing the sign problem) within a parameterized family of manifolds. We presents results for the $1+1$ dimensional Thirring model with Wilson fermions on lattice sizes up to $40\times 10$. This method reaches higher $μ$ then previous techniques while substantially decreasing the computational time required.

8 pages, 6 figures