Density-matrix theory of semiconductor lasers with relaxation broadening model - Gain and gain-suppression in semiconductor lasers
Abstract
The density-matrix theory of semiconductor lasers with relaxation broadening model is finally established by introducing theoretical dipole moment into previously developed treatments. The dipole moment is given theoretically by the k x p method and is calculated for various semiconductor materials. As a result, gain and gain-suppression for a variety of crystals covering wide wavelength region are calculated. It is found that the linear gain is larger for wavelength lasers and that the gain-suppression is much larger for longer wavelength lasers, which results in that single-mode operation is more stable in long-wavelength lasers than in shorter-wavelength lasers, in good agreement with the experiments.
- Publication:
-
NASA STI/Recon Technical Report A
- Pub Date:
- May 1985
- Bibcode:
- 1985STIA...8535005A
- Keywords:
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- Amplification;
- Laser Modes;
- Matrix Theory;
- Molecular Relaxation;
- Semiconductor Lasers;
- Dipole Moments;
- Electromagnetic Interactions;
- Energy Gaps (Solid State);
- Gallium Arsenide Lasers;
- Indium Phosphides;
- Lasers and Masers