Critical Fidelity

Abstract

Using a Wigner Lorentzian Random Matrix ensemble, we study the fidelity, F(t), of systems at the Anderson metal-insulator transition, subject to small perturbations that preserve the criticality. We find that there are three decay regimes as perturbation strength increases: the first two are associated with a gaussian and an exponential decay respectively and can be described using Linear Response Theory. For stronger perturbations F(t) decays algebraically as F(t) t-D2, where D2 is the correlation dimension of the critical eigenstates.

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