C. H. Mak, R. Egger, H. Weber-Gottschick
Published 1998-10-01Version 1
A general algorithm toward the solution of the fermion sign problem in finite-temperature quantum Monte Carlo simulations has been formulated for discretized fermion path integrals with nearest-neighbor interactions in the Trotter direction. This multilevel approach systematically implements a simple blocking strategy in a recursive manner to synthesize the sign cancellations among different fermionic paths throughout the whole configuration space. The practical usefulness of the method is demonstrated for interacting electrons in a quantum dot.
Comments: 4 pages RevTeX, incl. two figures
Journal: Phys. Rev. Lett. 81, 4533 (1998)
A Wang-Landau method for calculating Renyi entropies in finite-temperature quantum Monte Carlo simulations
Application of machine learning in Bose-Einstein condensation critical-temperature analyses of path-integral Monte Carlo simulations
Entanglement and the fermion sign problem in auxiliary field quantum Monte Carlo simulations
