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Cavity modelling in stacked quantum well slabs for optically pumped lasers

Cavity modelling in stacked quantum well slabs for optically pumped lasers
Cavity modelling in stacked quantum well slabs for optically pumped lasers
The paper discusses a model to estimate the diffraction loss in stacked quantum well slabs for optically pumped lasers. Two quantum well slabs, cleaved from the same strip, are stacked together with the front sides facing each other to form the laser cavity. Misalignment and different slab sizes are possible, which may result in additional diffraction loss. The model is based on the diffraction integral theory to calculate the fundamental mode in a plane mirror resonator. Model results suggest that, for a small misalignment size of a few percent of the wavelength, the diffraction loss is relatively small compared with other sources of loss in the laser system. Hence, the stacked scheme is feasible for the long wavelength far-infrared region but not suitable for shorter wavelengths in the mid- or near-infrared regions. This model is in general applicable to other optically pumped quantum well lasers
1350-2433
171-175
Tan, H.A.
26280f50-8d13-4303-9cb9-e512586b8622
Xin, Z.-J.
e6591fec-392c-4a94-a244-3a3209f2b0ac
Rutt, H.N.
e09fa327-0c01-467a-9898-4e7f0cd715fc
Tan, H.A.
26280f50-8d13-4303-9cb9-e512586b8622
Xin, Z.-J.
e6591fec-392c-4a94-a244-3a3209f2b0ac
Rutt, H.N.
e09fa327-0c01-467a-9898-4e7f0cd715fc

Tan, H.A., Xin, Z.-J. and Rutt, H.N. (2003) Cavity modelling in stacked quantum well slabs for optically pumped lasers. IEE Proceedings - Optoelectronics, 150 (2), 171-175. (doi:10.1049/ip-opt:20030427).

Record type: Article

Abstract

The paper discusses a model to estimate the diffraction loss in stacked quantum well slabs for optically pumped lasers. Two quantum well slabs, cleaved from the same strip, are stacked together with the front sides facing each other to form the laser cavity. Misalignment and different slab sizes are possible, which may result in additional diffraction loss. The model is based on the diffraction integral theory to calculate the fundamental mode in a plane mirror resonator. Model results suggest that, for a small misalignment size of a few percent of the wavelength, the diffraction loss is relatively small compared with other sources of loss in the laser system. Hence, the stacked scheme is feasible for the long wavelength far-infrared region but not suitable for shorter wavelengths in the mid- or near-infrared regions. This model is in general applicable to other optically pumped quantum well lasers

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Published date: April 2003
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Identifiers

Local EPrints ID: 13853
URI: http://eprints.soton.ac.uk/id/eprint/13853
DOI: doi:10.1049/ip-opt:20030427
ISSN: 1350-2433
PURE UUID: 474c8e85-7a02-4281-b88f-3a47cbf750d7

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Date deposited: 28 Feb 2005
Last modified: 15 Mar 2024 05:13

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Contributors

Author: H.A. Tan
Author: Z.-J. Xin
Author: H.N. Rutt

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