Path integral Monte Carlo calculations of helium and hydrogen–helium plasma thermodynamics and of the deuterium shock Hugoniot

## Abstract In this paper we study thermodynamic properties of hydrogen and hydrogen‐helium mixtures with the help of the direct path integral Monte Carlo simulations. The results are compared with available theoretical and experimental methods based, in particular, on chemical picture. We investig

The differential diffusion Monte Carlo method, involving correlated random walks, is used to calculate the static polarizabilities of molecular hydrogen and helium by application of a finite electrostatic field. The results are for molecular hydrogen (~,=4.60(3) au; (Y, =6.38(S) au; for helium LY= 1

In this work, we report on calculations of the electronic channelling energy loss of hydrogen and helium ions along Sih1 0 0i and Sih1 1 0i axial directions for the low energy range by using the Monte Carlo simulation code. Simulated and experimental data are compared for protons and He ions in the

Integral and differential cross-sections for elastic collisions of He + ions in the ground state ( 2 S) with neutral He atoms are calculated, for centre-of-mass energies between 0.001 and 10 eV, using the partial waves method. The scattering phase shifts are calculated using the JWKB semi-classical