Exact ground states of few-body nuclei with and without three-body forces

1 February 1982

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

Vol. 25 (2) , 1111-1113
https://doi.org/10.1103/physrevc.25.1111

Abstract

Approximation-free solutions of the Schrödinger equation are given for the ground states of three- and four-body nuclei, employing spin-independent central two- and three-body forces. Comparison with the results of more approximate few-body methods shows their relative accuracy.

Keywords

This publication has 13 references indexed in Scilit:

Solution of the four-nucleon Schrödinger equation
Nuclear Physics A, 1981
On the ground-state of the alpha-particle and verification of the coupled-cluster method
Physics Letters B, 1981
Quantum chemistry by random walk: Higher accuracy
The Journal of Chemical Physics, 1980
Ground State of the Electron Gas by a Stochastic Method
Physical Review Letters, 1980
Configuration space Faddeev calculations. I. Triton ground state properties
Physical Review C, 1980
Properties of liquid and solid ${}^{4}{He}$
Physical Review B, 1979
Many-fermion theory in expS- (or coupled cluster) form
Physics Reports, 1978
Momentum-cutoff sensitivity in Faddeev calculations of trinucleon properties
Physical Review C, 1975
A detailed analysis of 3H from Faddeev equations in configuration space
Nuclear Physics A, 1973
Solution of the Faddeev equations for the triton problem using local two-particle interactions
Nuclear Physics A, 1969