Resonances in a single-lead reflection from a disordered medium: σ-model approach

Abstract

Using the framework of supersymmetric non-linear σ-model we develop a general non-perturbative characterisation of universal features of the density () of the imaginary parts (``width'') for S-matrix poles (``resonances'') describing waves incident and reflected from a disordered medium via M-channel waveguide/lead. Explicit expressions for () are derived for several instances of systems with broken time-reversal invariance, in particular for quasi-1D and 3D media. In the case of perfectly coupled lead with a few channels (M 1) the most salient features are tails () -1 for narrow resonances reflecting exponential localization and () -2 for broad resonances reflecting states located in the vicinity of the attached wire. For multimode quasi 1D wires with M 1, an intermediate asymptotics () -3/2 is shown to emerge reflecting diffusive nature of decay into wide enough contacts.

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