Quantum Monte-Carlo methods and exact treatment of the two-body problem with Hartree-Fock Bogoliubov states
Abstract
In this article, we show that the exact two-body problem can be replaced by quantum jumps between densities written as D=| a > < b | where | a > and | b > are vacuum for different quasi-particles operators. It is shown that the stochastic process can be written as a Stochastic Time-Dependent Hartree-Fock Bogoliubov theory (Stochastic TDHFB) for the generalized density R associated to D where R2 = R along each stochastic trajectory.
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