2019
DOI: 10.1063/1.5119729
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A new scheme for fixed node diffusion quantum Monte Carlo with pseudopotentials: Improving reproducibility and reducing the trial-wave-function bias

Abstract: Fixed node diffusion quantum Monte Carlo (FN-DMC) is an increasingly used computational approach for investigating the electronic structure of molecules, solids, and surfaces with controllable accuracy. It stands out among equally accurate electronic structure approaches for its favorable cubic scaling with system size, which often makes FN-DMC the only computationally affordable high-quality method in large condensed phase systems with more than 100 atoms. In such systems FN-DMC deploys pseudopotentials to su… Show more

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Cited by 36 publications
(37 citation statements)
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References 88 publications
(117 reference statements)
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“…143 The recently proposed "determinant locality approximation" in whichV Φ is simply approximated by (Ψ −1 SV Ψ S )Φ, where Ψ S is the Slater part of the wave function, has also been shown to deliver enhanced stability and resilience of the results against noise due to optimization of the Jastrow factor. 144 Both of these schemes are available in CASINO. Plane-wave DFT calculations normally use a Kleinman-Bylander representation of pseudopotentials.…”
Section: Pseudopotentials For Correlated Methodsmentioning
confidence: 99%
“…143 The recently proposed "determinant locality approximation" in whichV Φ is simply approximated by (Ψ −1 SV Ψ S )Φ, where Ψ S is the Slater part of the wave function, has also been shown to deliver enhanced stability and resilience of the results against noise due to optimization of the Jastrow factor. 144 Both of these schemes are available in CASINO. Plane-wave DFT calculations normally use a Kleinman-Bylander representation of pseudopotentials.…”
Section: Pseudopotentials For Correlated Methodsmentioning
confidence: 99%
“…Unfortunately, a multireference ansatz implies a much larger computational effort, which is not yet possible on the large systems discussed here. Second, FN-DMC energies are sensitive to the time-step and we rely on recent improvements in FN-DMC algorithms 36,40 , that enable convergence of time-steps as large as 0.05 a.u. We used 0.03 a.u.…”
Section: Missing High-order Many-electron Contributions Beyond Ccsd(t)mentioning
confidence: 99%
“…However, the quality of the Jastrow factor can be nonuniform for the bound complex and the noninteracting fragments, which can introduce a bias at larger time-steps. The recent DLA method in FN-DMC reduces this effect 36 and was applied to the C 60 @ [6]CPPA complex reported in Table 1 and also tested for GGG, C3A, and C2C2PD complexes (see Methods for further details). In all cases, FN-DMC with DLA is in agreement (95% confidence interval) with non-DLA FN-DMC interaction energies.…”
Section: Missing High-order Many-electron Contributions Beyond Ccsd(t)mentioning
confidence: 99%
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