Spectral statistics in disordered metals: a trajectories approach

Abstract

We show that the perturbative expansion of the two-level correlation function, R(ω), in disordered conductors can be understood semiclassically in terms of self-intersecting particle trajectories. This requires the extension of the standard diagonal approximation to include pairs of paths which are non-identical but have almost identical action. The number of diagrams thus produced is much smaller than in a standard field-theoretical approach. We show that such a simplification occurs because R(ω) has a natural representation as the second derivative of free energy F(ω). We calculate R(ω) to 3-loop order, and verify a one-parameter scaling hypothesis for it in 2d. We discuss the possibility of applying our ``weak diagonal approximation'' to generic chaotic systems.

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