Add to ORKGPresent quantum Monte Carlo codes use statistical techniques adapted to find the amplitude of a quantum system or the associated eigenvalues. Thus, they do not use a true physical random source. It is demonstrated that, in fact, quantum probability admits a description based on a specific class of random process at least for the single particle case. Then a first principle Monte Carlo code that exactly simulates quantum dynamics can be constructed. The subtle question concerning how to map random choices in amplitude interferences is explained. Possible advantages of this code in simulating single hit experiments are discussed
Quantum computing was so far mainly concerned with discrete problems. Recently, E. Novak and the aut...
Monte Carlo Simulation in Statistical Physics deals with the computer simulation of many-body system...
We present an elementary and self-contained account of the analogies existing between classical diff...
Over the past several decades, computational approaches to studying strongly-interacting systems hav...
A survey is given of Quantum Monte Carlo methods currently used to simulate quantum lattice models. ...
The stochastic-gauge representation is a method of mapping the equation of motion for the quantum me...
The stochastic-gauge representation is a method of mapping the equation of motion for the quantum me...
A survey is given of Quantum Monte Carlo methods currently used to simulate quantum lattice models. ...
A new class of stochastic variables, governed by a specifice set of rules, is introduced. These rule...
Quantum systems are in general not e_ciently simulatable by classical means. If one wishes to determ...
Featuring detailed explanations of the major algorithms used in quantum Monte Carlo simulations, thi...
In this thesis we investigate the recently developed Full Configuration Interaction Quantum Monte Ca...
We introduce a new stochastic method for calculating ground-state properties of quantum systems. Seg...
10 pages, 6 figures, to be published in Phys. Rev. CIn nuclear fusion and fission, fluctuation and d...
A survey is given of Quantum Monte Carlo methods currently used to simulate quantum lattice models. ...
Quantum computing was so far mainly concerned with discrete problems. Recently, E. Novak and the aut...
Monte Carlo Simulation in Statistical Physics deals with the computer simulation of many-body system...
We present an elementary and self-contained account of the analogies existing between classical diff...
Over the past several decades, computational approaches to studying strongly-interacting systems hav...
A survey is given of Quantum Monte Carlo methods currently used to simulate quantum lattice models. ...
The stochastic-gauge representation is a method of mapping the equation of motion for the quantum me...
The stochastic-gauge representation is a method of mapping the equation of motion for the quantum me...
A survey is given of Quantum Monte Carlo methods currently used to simulate quantum lattice models. ...
A new class of stochastic variables, governed by a specifice set of rules, is introduced. These rule...
Quantum systems are in general not e_ciently simulatable by classical means. If one wishes to determ...
Featuring detailed explanations of the major algorithms used in quantum Monte Carlo simulations, thi...
In this thesis we investigate the recently developed Full Configuration Interaction Quantum Monte Ca...
We introduce a new stochastic method for calculating ground-state properties of quantum systems. Seg...
10 pages, 6 figures, to be published in Phys. Rev. CIn nuclear fusion and fission, fluctuation and d...
A survey is given of Quantum Monte Carlo methods currently used to simulate quantum lattice models. ...
Quantum computing was so far mainly concerned with discrete problems. Recently, E. Novak and the aut...
Monte Carlo Simulation in Statistical Physics deals with the computer simulation of many-body system...
We present an elementary and self-contained account of the analogies existing between classical diff...