I. A. Dmitriev, M. Khodas, A. D. Mirlin, D. G. Polyakov
Published 2013-05-05Version 1
We study transport in the domain state, the so-called zero-resistance state, that emerges in a two-dimensional electron system in which the combined action of microwave radiation and magnetic field produces a negative absolute conductivity. We show that the voltage-biased system has a rich phase diagram in the system size and voltage plane, with second- and first-order transitions between the domain and homogeneous states for small and large voltages, respectively. We find the residual negative dissipative resistance in the stable domain state.
Comments: 5 pages, 4 figures
Journal: Phys. Rev. Lett. 111, 206801 (2013)
Thermal Mechanism of Absolute Negative Conductivity in Two-Dimensional Electron Systems
Local Interlayer Tunneling Between Two-Dimensional Electron Systems in the Ballistic Regime
Asymmetry of Nonlinear Transport and Electron Interactions in Quantum Dots
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