Quantum Monte Carlo for molecules: Green’s function and nodal release
- 15 December 1984
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 81 (12), 5833-5844
- https://doi.org/10.1063/1.447637
Abstract
A random walk algorithm is presented which exactly calculates the properties of a many-electron system. For that purpose both the Green’s function Monte Carlo method and nodal relaxation have been employed and both are described in detail. The scheme is applied to several small molecules, (H3, LiH, Li2, H20) and with modest computational effort and simple importance functions, ground state energies are obtained which agree with experimental energies within statistical error bars. The small energy decrease due to nodal release is accurately evaluated by a difference method.Keywords
This publication has 8 references indexed in Scilit:
- Quantum chemistry by random walk: Linear H3The Journal of Chemical Physics, 1984
- Classical barrier height for H+H2→H2+HThe Journal of Chemical Physics, 1984
- The simulation of quantum systems with random walks: A new algorithm for charged systemsJournal of Computational Physics, 1983
- Fixed-node quantum Monte Carlo for moleculesa) b)The Journal of Chemical Physics, 1982
- A new look at correlation energy in atomic and molecular systems. II. The application of the Green’s function Monte Carlo method to LiHThe Journal of Chemical Physics, 1982
- Ground State of the Electron Gas by a Stochastic MethodPhysical Review Letters, 1980
- A random-walk simulation of the Schrödinger equation: H+3The Journal of Chemical Physics, 1975
- Helium at zero temperature with hard-sphere and other forcesPhysical Review A, 1974