Book contents
- Semiconductor Nanolasers
- Semiconductor Nanolasers
- Copyright page
- Contents
- 1 Introduction
- 2 Photonic Mode Metal-dielectric-metal–based Nanolasers
- 3 Purcell Effect and the Evaluation of Purcell and Spontaneous Emission Factors
- 4 Plasmonic Mode Metal-dielectric-metal–based Nanolasers
- 5 Antenna-inspired Nano-patch Lasers
- 6 Active Medium for Semiconductor Nanolasers: MQW vs. Bulk Gain
- 7 Electrically Pumped Nanolasers
- 8 Multi-physics Design for Nanolasers
- 9 Cavity-free Nanolaser
- 10 Beyond Nanolasers: Inversionless Exciton-polariton Microlaser
- 11 Application of Nanolasers: Photonic Integrated Circuits and Other Applications
- Book part
- Appendix A Spontaneous Emission in Free Space and Cavity
- Appendix B Temperature-dependent Material Gain
- Appendix C Modeling Thermal Effects in Nanolasers
- Appendix D Constriction Resistance and Current Crowding in Nanolasers
- References
- Index
Appendix B - Temperature-dependent Material Gain
Published online by Cambridge University Press: 25 March 2017
- Semiconductor Nanolasers
- Semiconductor Nanolasers
- Copyright page
- Contents
- 1 Introduction
- 2 Photonic Mode Metal-dielectric-metal–based Nanolasers
- 3 Purcell Effect and the Evaluation of Purcell and Spontaneous Emission Factors
- 4 Plasmonic Mode Metal-dielectric-metal–based Nanolasers
- 5 Antenna-inspired Nano-patch Lasers
- 6 Active Medium for Semiconductor Nanolasers: MQW vs. Bulk Gain
- 7 Electrically Pumped Nanolasers
- 8 Multi-physics Design for Nanolasers
- 9 Cavity-free Nanolaser
- 10 Beyond Nanolasers: Inversionless Exciton-polariton Microlaser
- 11 Application of Nanolasers: Photonic Integrated Circuits and Other Applications
- Book part
- Appendix A Spontaneous Emission in Free Space and Cavity
- Appendix B Temperature-dependent Material Gain
- Appendix C Modeling Thermal Effects in Nanolasers
- Appendix D Constriction Resistance and Current Crowding in Nanolasers
- References
- Index
Summary
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- Information
- Semiconductor Nanolasers , pp. 275 - 282Publisher: Cambridge University PressPrint publication year: 2017