Diffusion Monte Carlo (DMC) simulations for fermions are becoming the standard for providing high-quality reference data in systems that are too large to be investigated via quantum chemical approaches. DMC with the fixed-node approximation relies on modifications of the Green's function to avoid singularities near the nodal surface of the trial wave function. Here we show that these modifications affect the DMC energies in a way that is not size consistent, resulting in large time-step errors. Building on the modifications of Umrigar et al. and DePasquale et al. we propose a simple Green's function modification that restores size consistency to large values of the time step, which substantially reduces time-step errors. This algorithm also...
Transition metals and transition metal compounds are important to catalysis, photochemistry, and man...
We describe a number of strategies for minimizing and calculating accurately the statistical uncerta...
Performance of the fixed-node diffusion quantum Monte Carlo method (FN-DMC) with a single Slater-Jas...
Diffusion Monte Carlo (DMC) simulations for fermions are becoming the standard for providing high-qu...
With the development of peta-scale computers and exa-scale only a few years away, the quantum Monte ...
The basic idea of the diffusion quantum Monte Carlo method (DMC) is the analogy of the Schrödinger e...
Trial wave function based quantum Monte Carlo is a promising family of methods for the solution of q...
Several importance sampling strategies are developed and tested for stereographic projection diffusi...
The accuracy of total electronic energies obtained using the fixed-node diffusion quantum Monte Carl...
We analyze the problem of eliminating finite-size errors from quantum Monte Carlo (QMC) energy data....
We review the use of continuum quantum Monte Carlo (QMC) methods for the calculation of energy gaps ...
International audienceWe introduce methodologies for highly scalable quantum Monte Carlo simulations...
While the computation of interatomic forces has become a well-established practice within variationa...
Computer simulation plays a central role in modern-day materials science. The utility of a given com...
International audienceWe study beryllium dihydride (BeH 2) and acetylene (C 2 H 2) molecules using r...
Transition metals and transition metal compounds are important to catalysis, photochemistry, and man...
We describe a number of strategies for minimizing and calculating accurately the statistical uncerta...
Performance of the fixed-node diffusion quantum Monte Carlo method (FN-DMC) with a single Slater-Jas...
Diffusion Monte Carlo (DMC) simulations for fermions are becoming the standard for providing high-qu...
With the development of peta-scale computers and exa-scale only a few years away, the quantum Monte ...
The basic idea of the diffusion quantum Monte Carlo method (DMC) is the analogy of the Schrödinger e...
Trial wave function based quantum Monte Carlo is a promising family of methods for the solution of q...
Several importance sampling strategies are developed and tested for stereographic projection diffusi...
The accuracy of total electronic energies obtained using the fixed-node diffusion quantum Monte Carl...
We analyze the problem of eliminating finite-size errors from quantum Monte Carlo (QMC) energy data....
We review the use of continuum quantum Monte Carlo (QMC) methods for the calculation of energy gaps ...
International audienceWe introduce methodologies for highly scalable quantum Monte Carlo simulations...
While the computation of interatomic forces has become a well-established practice within variationa...
Computer simulation plays a central role in modern-day materials science. The utility of a given com...
International audienceWe study beryllium dihydride (BeH 2) and acetylene (C 2 H 2) molecules using r...
Transition metals and transition metal compounds are important to catalysis, photochemistry, and man...
We describe a number of strategies for minimizing and calculating accurately the statistical uncerta...
Performance of the fixed-node diffusion quantum Monte Carlo method (FN-DMC) with a single Slater-Jas...