V. Ryzhii, V. Vyurkov
Published 2003-05-09Version 1
We discuss the feasibility of absolute negative conductivity (ANC) in two-dimensional electron systems (2DES) stimulated by microwave radiation in transverse magnetic field. The mechanism of ANC under consideration is associated with the electron scattering on acoustic piezoelectric phonons accompanied by the absorption of microwave photons. It is demonstrated that the dissipative components of the 2DES dc conductivity can be negative ($\sigma_{xx} = \sigma_{yy} < 0$) when the microwave frequency $\Omega$ is somewhat higher than the electron cyclotron frequency $\Omega_c$ or its harmonics. The concept of ANC associated with such a scattering mechanism can be invoked to explain the nature of the occurrence of zero-resistance ``dissipationless'' states observed in recent experiments.
Comments: 7 pager, 2 figures
Journal: Phys. Rev. B 68, 165406 (2003)
Absolute negative conductivity in two-dimensional electron systems under microwave radiation
Radiation induced oscillations of the Hall resistivity in two-dimensional electron systems
Negative conductivity and anomalous screening in two-dimensional electron systems subjected to microwave radiation
