A microscopic calculation of the effective mass of one He 4 impurity in homogeneous liquid
He 3 at zero temperature is performed for an extended Jastrow-Slater wave function …

An inhomogeneous backflow transformation for many-particle wave functions is presented
and applied to electrons in atoms, molecules, and solids. We report variational and diffusion …

We justify and evaluate backflow three-body wave functions for a two-component system of
electrons and protons. Based on the generalized Feynman-Kacs formula, many-body …

Abstract Variational Monte Carlo calculations of the ground states of drops containing 8–728
atoms of He 4 and 20–240 atoms of He 3 have been made. The variational wave functions …

Abstract Results of both Brueckner-Bethe and variational calculations for the binding energy
of nuclear matter as a function of density are presented for several recent nucleon-nucleon …

A bstract We propose to use the nuclear spin excitation in the ferromagnetic A 1 phase of the
superfluid 3 He for the axion dark matter detection. This approach is striking in that it is …

We show how a ground-state trial wave function of a Fermi liquid can be systematically
improved by introducing a sequence of renormalized coordinates through an iterative …

Variational many-body theory is employed to study ground-state properties of hypothetical
positron-electron plasmas. We make use of the multicomponent Fermi hypernetted-chain …

We present an accurate numerical study of the equation of state of nuclear matter based on
realistic nucleon-nucleon interactions by means of auxiliary field diffusion Monte Carlo …

We present new trial wave functions which include three-body correlations into the backflow
coordinates and a four-body symmetric potential. We show that our wave functions lower the …