Design optimization of optically pumped terahertz lasers in stepped quantum wells

Asymmetric stepped quantum wells (QWs) have been used in many optoelectronic devices. This paper proposes a modulation doping position at the edge of the stepped well to minimize the potential distortion caused by the doping. As a result, parasitic potential wells are eliminated, and the sensitivity...

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Bibliographic Details
Published in:Journal of physics. D, Applied physics Applied physics, 2002-08, Vol.35 (16), p.1907-1913, Article 302
Main Authors: Rutt, H N, Xin, Z-J, Tan, H A
Format: Article
Language:English
Subjects:
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Nonlinear optics
Optical bistability, multistability and switching, including local field effects
Optical bistability, multistability, and switching
Optics
Physics
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Summary:Asymmetric stepped quantum wells (QWs) have been used in many optoelectronic devices. This paper proposes a modulation doping position at the edge of the stepped well to minimize the potential distortion caused by the doping. As a result, parasitic potential wells are eliminated, and the sensitivity of the energy levels to dopant concentrations is substantially reduced. We also suggest a stacked design to juxtapose two QW slabs in order to improve the waveguide mode overlap in optically pumped terahertz lasers using the structure. The percentage of overlap between the active QWs layers and the laser mode increases from 9.8 percent for a thinned substrate single slab scheme to 68.4 percent for the stacked double slabs, respectively, with two highly doped layers acting as plasma waveguide. A diffraction integral model is established to simulate the laser cavity tolerance to possible misalignment in the stacked design. Our modeling results show that the diffraction loss due to small (few-micrometer) misalignment or difference in slab length is negligible compared to other losses in the laser system. (Author)
ISSN:0022-3727
1361-6463
DOI:10.1088/0022-3727/35/16/302