Intersubband photoconductivity at 1.6 µm using a strain-compensated AlN/GaN superlattice

Baumann, Esther; Giorgetta, Fabrizio R.; Hofstetter, Daniel; Lu, H.; Chen, X.; Schaff, William J.; Eastman, L. F.; Golka, Sebastian; Schrenk, W.; Strasser, Gottfried

doi:10.1063/1.2126130

Intersubband photoconductivity at 1.6 µm using a strain-compensated AlN/GaN superlattice

Author(s)

Baumann, Esther

Giorgetta, Fabrizio R.

Hofstetter, Daniel

Laboratoire temps-fréquence

Lu, H.

Chen, X.

Schaff, William J.

Eastman, L. F.

Golka, Sebastian

Schrenk, W.

Strasser, Gottfried

Date issued

2005

In

Applied Physics Letters, American Institute of Physics (AIP), 2005/87/191102/1-3

Abstract

We report on intersubband absorption, photovoltaic, and photoconductive detection of near-infrared radiation in regular AlN/GaN superlattice structures. Photoconductive detection was achieved up to temperatures of 120 K. Simulation of the transition energies using a self-consistent Schrödinger-Poisson equation solver for our specific well width is in good agreement with the measurements. For a well width of 17 Å, the transition energy between ground state and first excited state in the GaN well is around 6300 cm–1 which corresponds to 1.6 µm.

Publication type

journal article

Identifiers

https://libra.unine.ch/handle/20.500.14713/58794

DOI

10.1063/1.2126130

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Baumann_E._-_Intersubband_photoconductivity_at_1.6_mum_using_20080430.pdf

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Intersubband photoconductivity at 1.6 <i>µ</i>m using a strain-compensated AlN/GaN superlattice