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Systematic comparison and cross-validation of fixed-node diffusion Monte Carlo and phaseless auxiliary-field quantum Monte Carlo in solids

Fionn D. Malone, Anouar Benali, Miguel A. Morales, Michel Caffarel, Paul R. C. Kent, Luke Shulenburger

2020Physical review. B./Physical review. B28 citationsDOIOpen Access PDF

Abstract

Quantum Monte Carlo (QMC) methods are some of the most accurate methods for simulating correlated electronic systems. We investigate the compatibility, strengths, and weaknesses of two such methods, namely, diffusion Monte Carlo (DMC) and auxiliary-field quantum Monte Carlo (AFQMC). The multideterminant trial wave functions employed in both approaches are generated using the configuration interaction using a perturbative selection made iteratively (CIPSI) technique. Complete basis-set full configuration interaction energies estimated with CIPSI are used as a reference in this comparative study between DMC and AFQMC. By focusing on a set of canonical finite--size solid-state systems, we show that both QMC methods can be made to systematically converge towards the same energy once basis-set effects and systematic biases have been removed. AFQMC shows a much smaller dependence on the trial wave function than DMC while simultaneously exhibiting a much larger basis-set dependence. We outline some of the remaining challenges and opportunities for improving these approaches.

Topics & Concepts

Quantum Monte CarloMonte Carlo methodStatistical physicsDiffusion Monte CarloWave functionMonte Carlo molecular modelingMonte Carlo method in statistical physicsDynamic Monte Carlo methodMonte Carlo integrationBasis setHybrid Monte CarloQuasi-Monte Carlo methodComputer sciencePhysicsMathematicsQuantum mechanicsMarkov chain Monte CarloStatisticsMoleculeAdvanced Chemical Physics StudiesPhysics of Superconductivity and MagnetismCatalytic Processes in Materials Science
Systematic comparison and cross-validation of fixed-node diffusion Monte Carlo and phaseless auxiliary-field quantum Monte Carlo in solids | Litcius