A classical model for the negative dc conductivity of ac-driven 2D electrons near the cyclotron resonance
Abstract
A classical model for dc transport of two dimensional electrons in a perpendicular magnetic field and under strong irradiation is considered. We demonstrate that, near the cyclotron resonance condition, and for linear polarization of the ac field, a strong change of the diagonal component, σd, of the dc conductivity occurs in the presence of a weak nonparabolicity of the electron spectrum. Small change in the electron effective mass due to irradiation can lead to negative σd, while the Hall component of the dc conductivity remains practically unchanged. Within the model considered, the sign of σd depends on the relative orientation of the dc and ac fields, the sign of the detuning of the ac frequency from the cyclotron resonance, and the sign of nonparabolic term in the energy spectrum.
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