Permutation Sampling in Path Integral Monte Carlo

## Abstract A novel path integral Monte Carlo (PIMC) approach for correlated many‐particle systems with arbitrary pair interaction in continuous space at low temperatures is presented. It is based on a representation of the __N__ ‐particle density operator in a basis of (anti‐)symmetrized __N__ ‐pa

simulations of euclidean path integrals based on local update algorithms are severely hampered by diverging autocorrelation times T in the continuum limit. If c denotes the discretization parameter we verify for simulations with the standard Metropolis algorithm the theoretically expected behaviour

The Fourier path integral formalism was implemented in the grand canonical ensemble and applied to a two-dimensional Lennard-Jones fluid, which is used to model a quantum monolayer. The method was employed to obtain the variation in the density of the monolayer as a function of chemical activity at

The Feynman path integral method is applied to the many-electron problem. We first give new closure relations in terms of ordinary complex and real numbers, which could be derived from an arbitrary complete set of state vectors. Then, in the path integral form, the partition function of the system a