Nonperturbative Topological Model of Synergistic Phase of 2D Electron Gas Induced by Microwave Excitation

Details Nonperturbative Topological Model of Synergistic Phase of 2D Electron Gas Induced by Microwave Excitation Nonperturbative Topological Model of Synergistic Phase of 2D Electron Gas Induced by Microwave Excitation

2004-02-04

arxiv.org/abs/cond-mat/0402112v1

Physics

Condensed Matter

Mesoscale and Nanoscale Physics

14 pages plus two figures (jcphillips8@comcast.net)

Scientific paper

The synergistic formation of ``zero'' (exponentially small or thermally activated) resistance states (ESRS) in high mobility two-dimensional electron systems (2DES) in a static magnetic field B and exposed to strong microwave radiation has attracted great interest. Strong (glassy) disorder apparently stabilizes the new synergistic phase, which can be exactly described by a nonperturbative (nonpolynomial) microscopic topological filamentary model. The model contains many novel features that arise from strong correlations, nanoscopic phase separation, and quasi-one dimensional back scattering.

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