Title :
The modulational instability laser. I. Experiment
Author :
Nakazawa, Masataka ; Suzuki, Kazunori ; Haus, Hermann A.
Author_Institution :
Opt. Commun. Lab., NTT, Ibaraki, Japan
fDate :
9/1/1989 12:00:00 AM
Abstract :
Detailed characteristics of the modulational instability (MI) oscillation in a single-mode optical fiber ring cavity are described. There is a clear threshold pump power for the oscillation, and stable oscillation can be achieved with proper synchronization. It is shown that phase coherence among pump, Stokes, and anti-Stokes consistent with the propagation of higher-order solitons plays an important role in the generation of MI gain. A noninstantaneous response of the nonlinear index (self-induced Raman gain) competes with the MI gain and produces an asymmetry in the spectrum of the Stokes and the anti-Stokes pulses. When a strong pump depletion occurs, the MI cannot be achieved, and the Stokes pulse forms unaided into a single soliton
Keywords :
fibre optics; laser cavity resonators; nonlinear optics; optical modulation; ring lasers; solitons; MI gain; Stokes; Stokes pulses; anti-Stokes pulses; antiStokes; higher-order solitons; modulation instability oscillation; modulational instability laser; phase coherence; pulse spectrum; self-induced Raman gain; single soliton; single-mode optical fiber ring cavity; soliton propagation; stable oscillation; strong pump depletion; threshold pump power; Fiber lasers; Laboratories; Laser excitation; Laser mode locking; Optical fiber polarization; Optical fibers; Optical propagation; Pulse generation; Pump lasers; Ring lasers; Solid lasers; Solitons;
Journal_Title :
Quantum Electronics, IEEE Journal of
