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arxiv: 2004.01133 · v2 · pith:6YDVLNHB · submitted 2020-04-02 · cond-mat.str-el

Numerical evaluation of two-time correlation functions in open quantum systems with matrix product state methods: a comparison

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classification cond-mat.str-el
keywords methodsquantumapproachescorrelationefficiencyfunctionsmatrixnumerical
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We compare the efficiency of different matrix product state (MPS) based methods for the calculation of two-time correlation functions in open quantum systems. The methods are the purification approach [1] and two approaches [2,3] based on the Monte-Carlo wave function (MCWF) sampling of stochastic quantum trajectories using MPS techniques. We consider a XXZ spin chain either exposed to dephasing noise or to a dissipative local spin flip. We find that the preference for one of the approaches in terms of numerical efficiency depends strongly on the specific form of dissipation.

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