Litcius/Paper detail

A phaseless auxiliary-field quantum Monte Carlo perspective on the uniform electron gas at finite temperatures: Issues, observations, and benchmark study

Joonho Lee, Miguel A. Morales, Fionn D. Malone

2021The Journal of Chemical Physics52 citationsDOIOpen Access PDF

Abstract

We investigate the viability of the phaseless finite-temperature auxiliary-field quantum Monte Carlo (ph-FT-AFQMC) method for ab initio systems using the uniform electron gas as a model. Through comparisons with exact results and FT coupled cluster theory, we find that ph-FT-AFQMC is sufficiently accurate at high to intermediate electronic densities. We show, both analytically and numerically, that the phaseless constraint at FT is fundamentally different from its zero-temperature counterpart (i.e., ph-ZT-AFQMC), and generally, one should not expect ph-FT-AFQMC to agree with ph-ZT-AFQMC in the low-temperature limit. With an efficient implementation, we are able to compare exchange-correlation energies to the existing results in the thermodynamic limit and find that the existing parameterizations are highly accurate. In particular, we found that ph-FT-AFQMC exchange-correlation energies are in better agreement with a known parameterization than is restricted path-integral MC in the regime of Θ ≤ 0.5 and rs ≤ 2, which highlights the strength of ph-FT-AFQMC.

Topics & Concepts

Statistical physicsPhysicsQuantum Monte CarloMonte Carlo methodBenchmark (surveying)Limit (mathematics)Constraint (computer-aided design)QuantumPerspective (graphical)Ab initioComplement (music)Thermodynamic limitQuantum mechanicsElectronCluster (spacecraft)Fermi gasDynamic Monte Carlo methodMonte Carlo molecular modelingComputational physicsMonte Carlo method in statistical physicsCoupled clusterBasis (linear algebra)Hybrid Monte CarloPhase (matter)Advanced Chemical Physics StudiesPhysics of Superconductivity and MagnetismQuantum, superfluid, helium dynamics