Back Monte Carlo quàntic Catalan Quanten-Monte-Carlo-Methode German Monte Carlo simulacija Croatian Quantum Monte Carlo Italian 量子モンテカルロ法 Japanese Kwantowa metoda Monte Carlo Polish Квантовый метод Монте-Карло Russian Квантовий метод Монте-Карло Ukrainian
Quantum Monte Carlo encompasses a large family of computational methods whose common aim is the study of complex quantum systems. One of the major goals of these approaches is to provide a reliable solution (or an accurate approximation) of the quantum many-body problem. The diverse flavors of quantum Monte Carlo approaches all share the common use of the Monte Carlo method to handle the multi-dimensional integrals that arise in the different formulations of the many-body problem.
Quantum Monte Carlo methods allow for a direct treatment and description of complex many-body effects encoded in the wave function, going beyond mean-field theory. In particular, there exist numerically exact and polynomially-scaling algorithms to exactly study static properties of boson systems without geometrical frustration. For fermions, there exist very good approximations to their static properties and numerically exact exponentially scaling quantum Monte Carlo algorithms, but none that are both.