Abstract
The variation of the attenuation rates of the circularly polarized waves and the slab transmittance with the hot carrier temperature ${T}_{e}$ are investigated with the aid of a high-field mobility model in which ${E}_{0}$ and the carrier drift velocity ${v}_{0}$ are expressed in terms of ${T}_{e}$, assuming only polar optical scattering is operative. It is shown that the attenuation rates of the circularly polarized waves traveling in InSb can be reduced and that the slab transmittance ${T}_{s}$ can be enhanced by proper application of static electric field.
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