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Photoconductivity nonlinearity at high excitation power in quantum well infrared photodetectors
71
Citations
9
References
1997
Year
Quantum SciencePhotonicsQuantum PhotonicsElectrical EngineeringEngineeringPhysicsPhotodetectorsQuantum DeviceInfrared PhotodetectorsPhotoluminescenceApplied PhysicsElectric FieldNonlinear Photoconductivity EffectsPhotoconductivity NonlinearityQuantum Photonic DeviceOptoelectronicsHigh Excitation Power
Nonlinear photoconductivity effects at high excitation power in quantum well infrared photodetectors (QWIPs) are studied both experimentally and theoretically. The photoconductivity nonlinearity is mainly caused by a redistribution of the electric potential at high power, which leads to a decrease of electric field in the bulk of the QWIP. As a result of the decreased field, the photoexcited electron escape probability and drift velocity decrease resulting in a decrease of responsivity.
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