Experimental study of an actively mode-locked fiber ring laser based on in-fiber amplitude modulation
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We report an experimental study of an actively mode-locked fiber ring laser based on the development of an efficient in-fiber amplitude modulator. Intermodal coupling induced by standing flexural acoustic waves permits the implementation of broad bandwidth (1.5 nm), high modulation depth (72%25), low-insertion-loss (0.75 dB), in-fiber amplitude modulators, operating in the MHz frequency range. The experimental characterization of the laser as a function of the radio frequency voltage that controls the modulator, the length of the active fiber, and the optical bandwidth of an intracavity filter implemented with a fiber Bragg grating has led to an improved performance of the Erbium-doped fiber laser: optical pulses of 34-ps temporal width, 1.4-W peak power, and 4.75-MHz repetition rate. © 2011 Springer-Verlag.
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Active fibers; Amplitude modulators; Broad bandwidths; Erbium doped fiber laser; Experimental characterization; Experimental studies; Fiber-ring lasers; Frequency ranges; In-fiber; Intermodal coupling; Intra-cavity filters; Mode-locked; Modulation depth; Optical band width; Peak power; Radio frequency voltage; Repetition rate; Temporal width; Acoustics; Bandwidth; Erbium; Fiber Bragg gratings; Fiber lasers; Fibers; Light modulators; Pulse repetition rate; Ring lasers; Mode-locked fiber lasers
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