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Pulse compression and pedestal suppression by self-similar propagation in nonlinear optical loop mirror

We propose and investigate a unique nonlinear pulse compression mechanism which provides low-pedestal, few-cycle ultrashort pulses at 800 nm. In order to accomplish this aim, we propose a fiber compressor based on self similar design and nonlinear optical loop mirror (NOLM) configuration. The propos...

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Bibliographic Details
Published in:Optics communications 2020-11, Vol.474, p.126083, Article 126083
Main Authors: A., Esther Lidiya, R., Vasantha Jayakantha Raja, Husakou, Anton
Format: Article
Language:English
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Summary:We propose and investigate a unique nonlinear pulse compression mechanism which provides low-pedestal, few-cycle ultrashort pulses at 800 nm. In order to accomplish this aim, we propose a fiber compressor based on self similar design and nonlinear optical loop mirror (NOLM) configuration. The proposed NOLM consists of chloroform infiltrated polarization maintaining tapered photonic crystal fiber (TPCF) which has been designed on the basis of self-similar technique. The coupler of the NOLM plays a key role in the suppression of pedestal and formation of high-quality compressed pulses. The dynamics of higher-order chirped solitons in a designed pulse compressor has been simulated numerically, to rigorously incorporate self-switching characteristics of NOLM and the self-similar property of the fiber. For a 140-fs input pulse with 100 W, quality analysis at the output of NOLM reveals a compressed pulse with a FWHM of 6.98 fs, compression factor of 20.05, and pedestal energy of 2.5% in a 4.9 cm long fiber. •This work describes the generation of pedestal free ultrashort pulses using taper photonic crystal fiber.•Tapering of photonic crystal fiber is numerically done by self-similar analysis.•Nonlinear optical loop mirror configuration of the designed taper photonic crystal fiber is used for pulse compression.•Self-switching property of nonlinear optical loop mirror is used for the efficient suppression of pedestal.
ISSN:0030-4018
1873-0310
DOI:10.1016/j.optcom.2020.126083