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Magneto-transport Characteristics of a 2D Electron System Driven to Negative Magneto-conductivity by Microwave Photoexcitation

Mani, Ramesh G.
Kriisa, Annika
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Abstract

Negative diagonal magneto-conductivity/resistivity is a spectacular- and thought provoking-property of driven, far-from-equilibrium, low dimensional electronic systems. The physical response of this exotic electronic state is not yet fully understood since it is rarely encountered in experiment. The microwave-radiation-induced zero-resistance state in the high mobility GaAs/AlGaAs 2D electron system is believed to be an example where negative magneto-conductivity/resistivity is responsible for the observed phenomena. Here, we examine the magneto-transport characteristics of this negative conductivity/ resistivity state in the microwave photo-excited two-dimensional electron system (2DES) through a numerical solution of the associated boundary value problem. The results suggest, surprisingly, that a bare negative diagonal conductivity/resistivity state in the 2DES under photo-excitation should yield a positive diagonal resistance, with a concomitant sign reversal in the Hall voltage.

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2013-12-01
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Mani, R.G. & Kriisa, A. Magneto-transport characteristics of a 2D electron system driven to negative magneto-conductivity by microwave photoexcitation. Sci. Rep. 3, 3478; DOI:http://dx.doi.org/10.1038/srep03478 (2013).
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