Abstract:
Recently, the bandwidths of semiconductor lasers, detectors, and optical transmission systems have been dramatically increased. The considerations used to achieve a recor...Show MoreMetadata
Abstract:
Recently, the bandwidths of semiconductor lasers, detectors, and optical transmission systems have been dramatically increased. The considerations used to achieve a record 26.5 GHz bandwidth in a 1.3 μm InGaAsP laser at -60°C are described here. The small-signal modulation characteristics of a number of different laser structures are compared. Several large-signal modulation experiments are described with emphasis on the laser response to 8 Gbit/s modulation.
Published in: IEEE Journal of Quantum Electronics ( Volume: 22, Issue: 6, June 1986)
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- High-speed Laser ,
- Optical System ,
- Semiconductor Laser ,
- Optical Fiber Communication ,
- GHz Bandwidth ,
- Parasite ,
- High Power ,
- Resonance Frequency ,
- Photodetector ,
- Active Layer ,
- Quantum Efficiency ,
- Thermal Resistance ,
- Bit Error Rate ,
- Rate Equation ,
- Narrow Width ,
- P-n Junction ,
- Cavity Length ,
- dB Bandwidth ,
- Polyimide Layer ,
- Microwave Measurements ,
- Bond Wires ,
- Relaxation Oscillator ,
- Bell Labs ,
- Vapor Phase Epitaxy ,
- Optical Power ,
- Contact Resistance ,
- Gain Coefficient ,
- Etching ,
- Dc Value
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- High-speed Laser ,
- Optical System ,
- Semiconductor Laser ,
- Optical Fiber Communication ,
- GHz Bandwidth ,
- Parasite ,
- High Power ,
- Resonance Frequency ,
- Photodetector ,
- Active Layer ,
- Quantum Efficiency ,
- Thermal Resistance ,
- Bit Error Rate ,
- Rate Equation ,
- Narrow Width ,
- P-n Junction ,
- Cavity Length ,
- dB Bandwidth ,
- Polyimide Layer ,
- Microwave Measurements ,
- Bond Wires ,
- Relaxation Oscillator ,
- Bell Labs ,
- Vapor Phase Epitaxy ,
- Optical Power ,
- Contact Resistance ,
- Gain Coefficient ,
- Etching ,
- Dc Value
