Frequency Conversion Using Ultrafast Fiber Lasers

Keyphrases

• Mode-locked Lasers 100%
• Ultrafast Fiber Laser 100%
• Frequency Conversion 100%
• Yb-doped Fiber Laser 60%
• Dispersion Compensation 60%
• Visible Spectrum 40%
• Picosecond Pulses 40%
• Fiber Taper 40%
• Cross-phase Modulation 40%
• Spectral Broadening 40%
• Supercontinuum Generation 40%
• All-fiber Structure 40%
• Intra-cavity 40%
• Second Harmonic 20%
• Frequency Doubling 20%
• Mode-locking 20%
• High Power 20%
• Wavelength Range 20%
• Autocorrelation 20%
• Oscillation 20%
• Pulsed Operation 20%
• Light Pulse 20%
• Laser Cavity 20%
• Repetition Rate 20%
• Photonic Crystal Fiber 20%
• Fiber Amplifier 20%
• Telecom 20%
• Temporal Synchronization 20%
• Gain Spectrum 20%
• Cavity Design 20%
• Two-mode 20%
• Compensation Rate 20%
• Frequency Sweep Nonlinearity 20%
• Active Fiber 20%
• Color Mode 20%
• Clock Source 20%
• Soliton Fission 20%
• Gain Medium 20%
• Single-mode Fiber 20%
• KTP Crystal 20%
• Diode Laser 20%
• Infrared Radiation 20%
• Wideband Sources 20%
• Ultrashort Optical Pulses 20%
• Supercontinuum 20%
• All-fiber Laser 20%
• Mode Optimization 20%
• Visible Supercontinuum 20%
• Two-color 20%
• Laser Source 20%
• Yb-doped 20%
• Periodically Poled Crystals 20%
• Negative Dispersion 20%
• Third Harmonic 20%
• Frequency chirp 20%
• Bulk Element 20%
• Laser Pulse 20%
• Er Doping 20%
• Ultraviolet Wavelength 20%
• Single-mode Optical Fiber 20%
• Near-infrared 20%
• All-optical 20%
• Pulse Train 20%

Physics

• Fiber Laser 100%
• Dispersion Compensation 30%
• Spectral Broadening 20%
• Cross-Phase Modulation 20%
• Supercontinuum Generation 20%
• Harmonics 10%
• Solitary Wave 10%
• Semiconductor Laser 10%
• Laser Pulse 10%
• Laser Source 10%
• Near Infrared 10%
• Single-Mode Optical Fiber 10%
• Infrared Radiation 10%
• Laser Cavity 10%
• Synchronism 10%
• Visible Spectrum 10%
• Autocorrelation 10%
• Photonic Crystal Fiber 10%