Fidelity recovery in chaotic systems and the Debye-Waller factor

Abstract

Using supersymmetry calculations and random matrix simulations, we studied the decay of the average of the fidelity amplitude fepsilon(tau)=<psi(0)| exp(2 pi i Hepsilon tau) exp(-2 pi i H0 tau) |psi(0)>, where Hepsilon differs from H0 by a slight perturbation characterized by the parameter epsilon. For strong perturbations a recovery of fepsilon(tau) at the Heisenberg time tau=1 is found. It is most pronounced for the Gaussian symplectic ensemble, and least for the Gaussian orthogonal one. Using Dyson's Brownian motion model for an eigenvalue crystal, the recovery is interpreted in terms of a spectral analogue of the Debye-Waller factor known from solid state physics, describing the decrease of X-ray and neutron diffraction peaks with temperature due to lattice vibrations.

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