Archivio Istituzionale della RicercaOptimization of dark current is a key technological issue to be addressed in order to improve quantum-well infrared photodetector (QWIP) performance. We develop a model for the description of current-voltage curves in mid-infrared QWIPs, which usually span a range of electric fields in which both low-field as well as high-field carrier transport effects are visible, especially at low temperatures. The model separates the I-V curve into a low-field and a high-field region allowing us to identify and separate the effects ascribed to miniband transport and carrier localization, respectively. We then compare simulations with our measurements of the I-V curves of mid-ir QWIPs finding a good quantitative agreement between theory and experiment.
Modeling of dark current in mid-infrared quantum-well infrared photodetectors / Castellano, F.; Iotti, Rita Claudia; Rossi, Fausto; Faist, J.; Lhuillier, E.; Berger, V.. - In: INFRARED PHYSICS & TECHNOLOGY. - ISSN 1350-4495. - 52:6(2009), pp. 220-223. [10.1016/j.infrared.2009.05.031]
Modeling of dark current in mid-infrared quantum-well infrared photodetectors
IOTTI, Rita Claudia;ROSSI, FAUSTO;
2009
Abstract
Optimization of dark current is a key technological issue to be addressed in order to improve quantum-well infrared photodetector (QWIP) performance. We develop a model for the description of current-voltage curves in mid-infrared QWIPs, which usually span a range of electric fields in which both low-field as well as high-field carrier transport effects are visible, especially at low temperatures. The model separates the I-V curve into a low-field and a high-field region allowing us to identify and separate the effects ascribed to miniband transport and carrier localization, respectively. We then compare simulations with our measurements of the I-V curves of mid-ir QWIPs finding a good quantitative agreement between theory and experiment.
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https://hdl.handle.net/11583/2498358
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