Structure of the ground-state wave function of quantum fluids and "exact" numerical methods

1 July 1982

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 26 (1) , 130-137
https://doi.org/10.1103/physrevb.26.130

Abstract

The problem of how to extract information on the structure of the exact ground-state wave function of a Bose fluid from the results of Green's-function Monte Carlo computations is considered. Use of the criterion of maximum overlap of the exact ground state with an extended Jastrow function leads to certain equalities for correlation functions. By using methods borrowed from theories of classical fluids various schemes are proposed that permit the determination of the "best" Jastrow function. The case of Fermi statistics is also considered.

Keywords

This publication has 14 references indexed in Scilit:

Green's Function Monte Carlo Method for Liquid ${}^{3}{He}$
Physical Review Letters, 1981
Ground State of the Electron Gas by a Stochastic Method
Physical Review Letters, 1980
Variational Monte Carlo Calculations of Liquid ${}^{4}{He}$ with Three-Body Correlations
Physical Review Letters, 1980
Jastrow wave function and correlations of the Lennard-Jones Bose fluid
Physical Review B, 1980
Properties of liquid and solid ${}^{4}{He}$
Physical Review B, 1979
Jastrow wave function of Yukawa Bose fluids: Monte Carlo computation
Physical Review D, 1979
Monte Carlo study of the ground state of bosons interacting with Yukawa potentials
Physical Review B, 1978
How good can Jastrow wavefunctions be for liquid helium four?
Physics Letters A, 1974
Phonons and the Properties of a Bose System
Physical Review B, 1967
Ground State of Liquid ${He}^{4}$
Physical Review B, 1965