High-quality AlN/GaN-superlattice structures for the fabrication of narrow-band 1.4 µm photovoltaic intersubband detectors

Hofstetter, Daniel; Baumann, Esther; Giorgetta, Fabrizio R.; Graf, Marcel; Maier, Manfred; Guillot, Fabien; Bellet-Amalric, Edith; Monroy, Eva

doi:10.1063/1.2185613

High-quality AlN/GaN-superlattice structures for the fabrication of narrow-band 1.4 µm photovoltaic intersubband detectors

Auteur(s)

Hofstetter, Daniel

Institut de physique

Baumann, Esther

Giorgetta, Fabrizio R.

Graf, Marcel

Maier, Manfred

Guillot, Fabien

Bellet-Amalric, Edith

Monroy, Eva

Date de parution

2006

In

Applied Physics Letters, American Institute of Physics (AIP), 2006/88/121112/1-3

Résumé

We report on high-quality short-period superlattices in the AlN/GaN material system. Thanks to significant advances in the epitaxial growth, up to 40 superlattice periods with a total layer thickness of 120 nm could be grown without cracking problems. Given an intersubband transition energy on the order of 910 meV, these superlattices could be used as room temperature, narrow-band, photovoltaic detectors for wavelengths around 1.4 µm. In photovoltaic operation, the full width at half maximum is as narrow as 90 meV, underlining the high quality of the interfaces and the single layers in our structures.

Identifiants

https://libra.unine.ch/handle/123456789/16724

_

10.1063/1.2185613

Type de publication

journal article

Dossier(s) à télécharger

main article: Hofstetter_Daniel_-_High-quality_AIN_GaN-superlattice_structures_20080513.pdf (551.08 KB)

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High-quality AlN/GaN-superlattice structures for the fabrication of narrow-band 1.4 <i>µ</i>m photovoltaic intersubband detectors