Abstract:
Pulse amplification in erbium-doped fiber amplifiers is studied by considering a general model that includes both gain saturation and gain dispersion. The effects of gain...Show MoreMetadata
Abstract:
Pulse amplification in erbium-doped fiber amplifiers is studied by considering a general model that includes both gain saturation and gain dispersion. The effects of gain dispersion are studied numerically for the case in which a fundamental soliton is launched at the amplifier input. The results show that fiber amplifiers may be useful for simultaneous amplification and compression of weak optical pulses. Under high-gain conditions the input pulse is found to split into a train of amplified subpulses whose width and repetition rate are governed by the gain bandwidth. The numerical results are in qualitative agreement with recent experiments.<>
Published in: IEEE Photonics Technology Letters ( Volume: 2, Issue: 12, December 1990)
DOI: 10.1109/68.62015
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Numerical Results ,
- Pulse Width ,
- Recent Experiments ,
- Peak Power ,
- Optical Pulse ,
- Qualitative Agreement ,
- Energy Gain ,
- Optical Amplifier ,
- Pulse Shape ,
- Multiple Pulses ,
- Amplifier Gain ,
- Peak Gain ,
- Input Pulse ,
- Gain Bandwidth ,
- Weak Pulse ,
- Group Velocity Dispersion ,
- Amplifier Input ,
- Gain Saturation
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Numerical Results ,
- Pulse Width ,
- Recent Experiments ,
- Peak Power ,
- Optical Pulse ,
- Qualitative Agreement ,
- Energy Gain ,
- Optical Amplifier ,
- Pulse Shape ,
- Multiple Pulses ,
- Amplifier Gain ,
- Peak Gain ,
- Input Pulse ,
- Gain Bandwidth ,
- Weak Pulse ,
- Group Velocity Dispersion ,
- Amplifier Input ,
- Gain Saturation
