I discuss a microscopically accurate desciption of the potential environment inside rare gas plated mesoporous silica.
Use parallelization, deep learning, and evolutionary computation for algorithmic improvements to continuous space quantum Monte Carlo methods.
Direct comparison of experimental spectra with imaginary time density-density correlation functions
Realize a Tomanaga-Luttinger liquid of helium.
Helium in quasi-one-dimensional confinement presents an excellent platform to study the emergence of a Tomonaga-Luttinger liquid over a broad range of interaction strengths.
Discussion of an approach to the analytical continuation of imaginary time quantum Monte Carlo data.
Discussion of a framework for the dimensional reduction of superfluid helium using rare gas plated nanoporous material.
Quantum Monte Carlo simulations of helium adsorbed on strained graphene yielding interesting results.