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Stable recursive auxiliary field quantum Monte Carlo algorithm in the canonical ensemble: Applications to thermometry and the Hubbard model

Tong Shen, Hatem Barghathi, Jiangyong Yu, Adrian Del Maestro, Brenda M. Rubenstein

2023Physical review. E10 citationsDOI

Abstract

Many experimentally accessible, finite-sized interacting quantum systems are most appropriately described by the canonical ensemble of statistical mechanics. Conventional numerical simulation methods either approximate them as being coupled to a particle bath or use projective algorithms which may suffer from nonoptimal scaling with system size or large algorithmic prefactors. In this paper, we introduce a highly stable, recursive auxiliary field quantum Monte Carlo approach that can directly simulate systems in the canonical ensemble. We apply the method to the fermion Hubbard model in one and two spatial dimensions in a regime known to exhibit a significant "sign" problem and find improved performance over existing approaches including rapid convergence to ground-state expectation values. The effects of excitations above the ground state are quantified using an estimator-agnostic approach including studying the temperature dependence of the purity and overlap fidelity of the canonical and grand canonical density matrices. As an important application, we show that thermometry approaches often exploited in ultracold atoms that employ an analysis of the velocity distribution in the grand canonical ensemble may be subject to errors leading to an underestimation of extracted temperatures with respect to the Fermi temperature.

Topics & Concepts

Canonical ensembleStatistical physicsGrand canonical ensembleMicrocanonical ensemblePhysicsMonte Carlo methodQuantum Monte CarloHubbard modelGround stateStatistical ensembleEstimatorField (mathematics)QuantumAlgorithmQuantum mechanicsComputer scienceMathematicsStatisticsPure mathematicsSuperconductivityQuantum many-body systemsCold Atom Physics and Bose-Einstein CondensatesPhysics of Superconductivity and Magnetism
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