Supercontinuum Comb Generation Using Optical Pulse Synthesizer and Highly Nonlinear Dispersion-Shifted Fiber
2009; Institute of Physics; Volume: 48; Issue: 9 Linguagem: Inglês
10.1143/jjap.48.09lf01
ISSN1347-4065
AutoresSamuel Choi, Naoyuki Tamura, Ken Kashiwagi, Tatsutoshi Shioda, Yosuke Tanaka, Takashi Kurokawa,
Tópico(s)Advanced Fiber Optic Sensors
ResumoWe propose a novel supercontinuum (SC) generation technology using an optical pulse synthesizer and highly nonlinear dispersion-shifted fiber. The optical pulse synthesizer enables us to reshape seed pulses optimized for broadband SC generation. 25.0 and 12.5 GHz SC combs were successfully generated by propagating synthesized seed pulses in the highly nonlinear fiber. We investigated how seed pulse conditions including shape, peak power, repetition rate, and center wavelength affect SC spectral bandwidth. We also evaluated interferometric signal waveforms from a Michelson interferometer using the generated SC comb as the light source. Interferometric peak width improved to 35.5 µm when peak power reached 7.9 W for the Gaussian pulse-based SC comb. Numerical simulation results almost agreed with experimental results. The difference between SC combs generated from Gaussian and sech2 pulses was confirmed by the simulations.
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