Performance Improvement of AlN-GaN-Based Intersubband Detectors by Using Quantum Dots

Daniel Hofstetter; Joab Di Francesco; Prem K Kandaswamy; Aparna Das; Sirona Valdueza-Felip; Eva Monroy

doi:10.1109/LPT.2010.2050057

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Journal article

Performance Improvement of AlN-GaN-Based Intersubband Detectors by Using Quantum Dots

Daniel Hofstetter, Joab Di Francesco, Prem K Kandaswamy, Aparna Das, Sirona Valdueza-Felip and Eva Monroy

IEEE photonics technology letters, Vol.22(15), pp.1087-1089

01/08/2010

DOI: https://doi.org/10.1109/LPT.2010.2050057

Abstract

Detectors

Electromagnetic wave absorption

Electron optics

Gallium nitride

Nonlinear optics

Optical devices

Photodetectors

Quantum dots

quantum dots (QDs)

semiconductors

Superlattices

Temperature

We report a strong performance improvement for 1.55-μm AIN-GaN-based intersubband photodetectors. Thanks to the use of quantum dots (QDs) instead of quantum wells (QWs), a factor of 60 could be gained in terms of maximum responsivity. In addition, this performance was achieved at a considerably higher temperature of 160 K instead of 80 K as typically seen for QWs. The responsivity of these photodetectors, which are based on optical rectification, is strongly influenced by their excited state lifetime. We believe that a much longer electron lifetime in the upper QD states and an increased lateral electron displacement are responsible for the observed improvement.

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Title: Performance Improvement of AlN-GaN-Based Intersubband Detectors by Using Quantum Dots
Creators - without role: Daniel Hofstetter - University of Neuchâtel
Joab Di Francesco - University of Neuchâtel
Prem K Kandaswamy - CEA Grenoble
Aparna Das - CEA Grenoble
Sirona Valdueza-Felip - CEA Grenoble
Eva Monroy - CEA Grenoble
Publication Details: IEEE photonics technology letters, Vol.22(15), pp.1087-1089
Publisher: IEEE
Identifiers: 9925067708331
Academic Unit: Prince Mohammad Bin Fahd University
Language: English
Resource Type: Journal article