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Transverse magnetic and transverse electric polarized inter-subband absorption and photoconductivity in <i>p</i>-type SiGe quantum wells
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1996
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Quantum PhotonicsEngineeringOptoelectronic DevicesSemiconductorsSubband AbsorptionQuantum MaterialsSemiconductor TechnologyQuantum SciencePhotonicsPhotoluminescenceInter-subband AbsorptionPhysicsQuantum DeviceSi/sige Quantum WellsCondensed Matter PhysicsApplied PhysicsPolarization DependenceQuantum DevicesQuantum Photonic DeviceOptoelectronics
We have investigated the polarization dependence of subband absorption and photoconductivity in Si/SiGe quantum wells. For samples with a hole concentration of ps=2.8×1012 cm−2 both transverse magnetic and transverse electric polarized absorptions have been observed, and transitions to several excited states are clearly identified by comparison with self-consistent Luttinger–Kohn type calculations. The photoconductivity is surprisingly little sensitive to the polarization, which indicates the importance of the subsequent transport process on the photocurrent responsivity.