arXiv:1002.2342 Abstract | arXiv Analytics

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From Anderson Localization to Mesoscopic Physics

Published 2010-02-11, updated 2010-06-09Version 2

In the late seventies an increasing interest in the scaling theory of Anderson localization led to new efforts to understand the conductance of systems which scatter electrons elastically. The conductance and its relation to the scattering matrix emerged as an important subject. This, coupled with the desire to find explicit manifestations of single electron interference led to the emergence of mesoscopic physics. We review electron transport phenomena which can be expressed elegantly in terms of the scattering matrix. Of particular interest are phenomena which depend not only on transmission probabilities but on both amplitude and phase of scattering matrix elements.

Comments: 21 pages, 5 figures

Journal: International Journal of Modern Physics B 24, 1555 (2010)

DOI: 10.1142/S0217979210064514

Categories: cond-mat.mes-hall

Keywords: anderson localization, mesoscopic physics, review electron transport phenomena, single electron interference, conductance

Tags: journal article

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