Abstract
The high frequency conductivity tensor {sigma}{sub ik}({omega}) in the linear approximation of magnetic field H and in the quadratic approximation of external dc electric field is derived by solving Boltzmann equation. The magneto-optical phenomena in the Voigt configuration (when a probe electro-magnetic wave propagates across a magnetic field) are investigated. It is shown that the birefringence and dichroism have a component that is odd (linear) in the magnetic fields and predominate over the even effect in the weak magnetic field. (author). 8 refs.
Citation Formats
Shon, Nguyen Hong.
The odd Voigt effect under a strong electric field in semiconductors.
IAEA: N. p.,
1991.
Web.
Shon, Nguyen Hong.
The odd Voigt effect under a strong electric field in semiconductors.
IAEA.
Shon, Nguyen Hong.
1991.
"The odd Voigt effect under a strong electric field in semiconductors."
IAEA.
@misc{etde_10113436,
title = {The odd Voigt effect under a strong electric field in semiconductors}
author = {Shon, Nguyen Hong}
abstractNote = {The high frequency conductivity tensor {sigma}{sub ik}({omega}) in the linear approximation of magnetic field H and in the quadratic approximation of external dc electric field is derived by solving Boltzmann equation. The magneto-optical phenomena in the Voigt configuration (when a probe electro-magnetic wave propagates across a magnetic field) are investigated. It is shown that the birefringence and dichroism have a component that is odd (linear) in the magnetic fields and predominate over the even effect in the weak magnetic field. (author). 8 refs.}
place = {IAEA}
year = {1991}
month = {Aug}
}
title = {The odd Voigt effect under a strong electric field in semiconductors}
author = {Shon, Nguyen Hong}
abstractNote = {The high frequency conductivity tensor {sigma}{sub ik}({omega}) in the linear approximation of magnetic field H and in the quadratic approximation of external dc electric field is derived by solving Boltzmann equation. The magneto-optical phenomena in the Voigt configuration (when a probe electro-magnetic wave propagates across a magnetic field) are investigated. It is shown that the birefringence and dichroism have a component that is odd (linear) in the magnetic fields and predominate over the even effect in the weak magnetic field. (author). 8 refs.}
place = {IAEA}
year = {1991}
month = {Aug}
}