Title :
Noise characterization of femtosecond fiber Raman soliton lasers
Author :
Keller, Ursula ; Li, Kathryn D. ; Rodwell, Mark ; Bloom, David M.
Author_Institution :
Edward L. Ginzton Lab., Stanford Univ., CA, USA
fDate :
3/1/1989 12:00:00 AM
Abstract :
The broadband amplitude noise and phase noise (timing jitter) measured in femtosecond fiber Raman soliton lasers is discussed. For a single-pass compressor using 300 m of either standard single-mode fiber or polarization preserving fiber, white amplitude noise >or=50 dB above shot noise at 2 mA photocurrent was measured, for frequencies higher than approximately 100 kHz. This is approximately=30 dB larger than the amplitude noise observed from fiber grating pulse compressors. The timing jitter increases with pump power, and at 1.6 W pump power, 5.2 ps r.m.s. timing jitter was measured, given approximately=2 ps jitter from the Nd:YAG pump. Longer fibers in the single-pass compressor do not affect the amplitude noise, but increase the timing jitter even further. A synchronously pumped ring cavity reduced the timing jitter substantially, but did not significantly improve the amplitude noise.<>
Keywords :
Raman lasers; fibre optics; high-speed optical techniques; noise; ring lasers; solid lasers; solitons; 100 kHz; 2 mA; 300 m; Nd:YAG pump; YAG:Nd; YAl5O12:Nd; broadband amplitude noise; femtosecond fiber Raman soliton lasers; fiber grating pulse compressors; noise characterisation; phase noise; polarization preserving fiber; shot noise; single-mode fiber; synchronously pumped ring cavity; timing jitter; white amplitude noise; Fiber lasers; Laser noise; Measurement standards; Noise level; Noise measurement; Optical fiber polarization; Phase measurement; Phase noise; Solitons; Timing jitter;
Journal_Title :
Quantum Electronics, IEEE Journal of
