physica status solidi (a)
Volume 203, Issue 7 pp. 1754-1758
Original Paper

Si-doped GaN/AlN quantum dot superlattices for optoelectronics at telecommunication wavelengths

F. Guillot

Corresponding Author

F. Guillot

Equipe Mixte CEA-CNRS-UJF Nanophysique et Semiconducteurs, DRFMC/SP2M/PSC, CEA-Grenoble, 17 rue des Martyrs, 38054 Grenoble cedex 9, France

Phone: +33 4 38 78 40 22, Fax: +33 4 38 78 51 97Search for more papers by this author
M. Tchernycheva

M. Tchernycheva

Action OptoGaN, Institut d'Electronique Fondamentale, Université Paris-Sud, UMR 8622 CNRS, 91405 Orsay cedex, France

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L. Nevou

L. Nevou

Action OptoGaN, Institut d'Electronique Fondamentale, Université Paris-Sud, UMR 8622 CNRS, 91405 Orsay cedex, France

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L. Doyennette

L. Doyennette

Action OptoGaN, Institut d'Electronique Fondamentale, Université Paris-Sud, UMR 8622 CNRS, 91405 Orsay cedex, France

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E. Monroy

E. Monroy

Equipe Mixte CEA-CNRS-UJF Nanophysique et Semiconducteurs, DRFMC/SP2M/PSC, CEA-Grenoble, 17 rue des Martyrs, 38054 Grenoble cedex 9, France

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F. H. Julien

F. H. Julien

Action OptoGaN, Institut d'Electronique Fondamentale, Université Paris-Sud, UMR 8622 CNRS, 91405 Orsay cedex, France

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Le Si Dang

Le Si Dang

Equipe Mixte CEA-CNRS-UJF Nanophysique et Semiconducteurs, Laboratoire de Spectrométrie Physique (CNRS UMR 5588), Université Joseph Fourier, 38402 Saint Martin d'Hères, France

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T. Remmele

T. Remmele

Institut für Kristallzüchtung, Max-Born-Straße 2, 12489 Berlin, Germany

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M. Albrecht

M. Albrecht

Institut für Kristallzüchtung, Max-Born-Straße 2, 12489 Berlin, Germany

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T. Shibata

T. Shibata

NGK Insulators, LTD 2-54 Sudacho, Mizuhoku, Nagoya, Japan

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M. Tanaka

M. Tanaka

NGK Insulators, LTD 2-54 Sudacho, Mizuhoku, Nagoya, Japan

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First published: 18 May 2006
https://doi.org/10.1002/pssa.200565129
Citations: 3

Abstract

We report on the controlled growth of Si doped GaN/AlN quantum dot (QD) superlattices, in order to tailor their intersubband absorption within the 1.3–1.5 µm telecommunication wavelengths. The QD size is tuned by modifying the amount of GaN in the QDs and the growth temperature. Silicon can be incorporated in the QDs to populate the first electronic level, without significant perturbation of the QD morphology. As a proof of the capability of these structures for infrared detection, a quantum-dot intersubband photodetector at 1.38 µm with lateral carrier transport is demonstrated. (© 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

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