Coherence correlations in the dissipative two-state system
Abstract
We study the dynamical equilibrium correlation function of the polaron-dressed tunneling operator in the dissipative two-state system. Unlike the position operator, this coherence operator acts in the full system-plus-reservoir space. We calculate the relevant modified influence functional and present the exact formal expression for the coherence correlations in the form of a series in the number of tunneling events. For an Ohmic spectral density with the particular damping strength K=1/2, the series is summed in analytic form for all times and for arbitrary values of temperature and bias. Using a diagrammatic approach, we find the long-time dynamics in the regime K<1. In general, the coherence correlations decay algebraically as t-2K at T=0. This implies that the linear static susceptibility diverges for K 1/2 as T 0, whereas it stays finite for K>1/2 in this limit. The qualitative differences with respect to the asymptotic behavior of the position correlations are explained.
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