We extend the scope of full configuration interaction quantum Monte Carlo (FCIQMC) to be applied to coupled fermion-boson hamiltonians, alleviating the a priori truncation in boson occupation which is necessary for many other wave function based approaches to be tractable. Detailing the required algorithmic changes for efficient excitation generation, we apply FCIQMC in two contrasting settings. The first is a sign-problem-free Hubbard--Holstein model of local electron-phonon interactions, where we show that with care to control for population bias via importance sampling and/or reweighting, the method can achieve unbiased energies extrapolated to the thermodynamic limit, without suffering additional computational overheads from relaxing bo...
The study of strongly correlated quantum many-body systems is an outstanding challenge. Highly accur...
We introduce a new class of quantum Monte Carlo methods, based on a Gaussian quantum operator repres...
We present a selective correlation scheme allowing us to correlate only subsets of electrons, which ...
The study of interacting quantum many-body systems poses one of the main challenges in areas includi...
We present an exact quantum Monte Carlo method for spin systems coupled to dissipative bosonic baths...
The main objective of this thesis is to examine how the full configuration interaction quantum Monte...
This thesis is concerned with the development of a Projector Quantum Monte Carlo method for non-lin...
In this paper, we propose an improved excitation generation algorithm for the full configuration int...
The development of polynomial cost solvers for correlated quantum impurity models, with controllable...
International audienceWe present a simple, general purpose, quantum Monte-Carlo algorithm for out-of...
We present a stable and systematically improvable quantum Monte Carlo (QMC) approach to calculating ...
Ultracold atoms have revolutionized atomic and condensed matter physics. In ad-dition to having clea...
We describe the extension of the density matrix embedding theory framework to coupled interacting fe...
The Full Configuration Interaction Quantum Monte Carlo (FCIQMC) method has proved able to provide ne...
We introduce methodologies for highly scalable quantum Monte Carlo simulations of electron-phonon mo...
The study of strongly correlated quantum many-body systems is an outstanding challenge. Highly accur...
We introduce a new class of quantum Monte Carlo methods, based on a Gaussian quantum operator repres...
We present a selective correlation scheme allowing us to correlate only subsets of electrons, which ...
The study of interacting quantum many-body systems poses one of the main challenges in areas includi...
We present an exact quantum Monte Carlo method for spin systems coupled to dissipative bosonic baths...
The main objective of this thesis is to examine how the full configuration interaction quantum Monte...
This thesis is concerned with the development of a Projector Quantum Monte Carlo method for non-lin...
In this paper, we propose an improved excitation generation algorithm for the full configuration int...
The development of polynomial cost solvers for correlated quantum impurity models, with controllable...
International audienceWe present a simple, general purpose, quantum Monte-Carlo algorithm for out-of...
We present a stable and systematically improvable quantum Monte Carlo (QMC) approach to calculating ...
Ultracold atoms have revolutionized atomic and condensed matter physics. In ad-dition to having clea...
We describe the extension of the density matrix embedding theory framework to coupled interacting fe...
The Full Configuration Interaction Quantum Monte Carlo (FCIQMC) method has proved able to provide ne...
We introduce methodologies for highly scalable quantum Monte Carlo simulations of electron-phonon mo...
The study of strongly correlated quantum many-body systems is an outstanding challenge. Highly accur...
We introduce a new class of quantum Monte Carlo methods, based on a Gaussian quantum operator repres...
We present a selective correlation scheme allowing us to correlate only subsets of electrons, which ...