Abstract:
Time-domain solutions to a detailed carrier injection model for multiple-quantum-well lasers under large signal current step injection is presented. The calculations yiel...Show MoreMetadata
Abstract:
Time-domain solutions to a detailed carrier injection model for multiple-quantum-well lasers under large signal current step injection is presented. The calculations yield a description of electron and hole carrier density distribution in space, time, and energy and also lead to the identification of a photon-assisted transport mechanism which may have a major impact on the dynamics of lasers with a large number of wells.<>
Published in: IEEE Photonics Technology Letters ( Volume: 5, Issue: 3, March 1993)
DOI: 10.1109/68.205615
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Carrier Dynamics ,
- Photon-assisted Transport ,
- Distribution In Space ,
- Carrier Density ,
- Current Step ,
- Rate Equation ,
- Current Injection ,
- Optical Amplifier ,
- Space Density ,
- Quantum Wells ,
- Development Of Electronics ,
- Electronic Energy Levels ,
- Early Time ,
- Diffusion Coefficient ,
- Number Density ,
- Density Of States ,
- 3d Electrons ,
- 2D Electron ,
- Escape Rate ,
- Hole Distribution
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Carrier Dynamics ,
- Photon-assisted Transport ,
- Distribution In Space ,
- Carrier Density ,
- Current Step ,
- Rate Equation ,
- Current Injection ,
- Optical Amplifier ,
- Space Density ,
- Quantum Wells ,
- Development Of Electronics ,
- Electronic Energy Levels ,
- Early Time ,
- Diffusion Coefficient ,
- Number Density ,
- Density Of States ,
- 3d Electrons ,
- 2D Electron ,
- Escape Rate ,
- Hole Distribution
