Abstract

We observe strong infrared (IR) radiation as a result of passive dispersive wave generation for a realistic microstructured fiber having two zero-dispersion wavelengths. The IR radiation frequency can be suitably controlled by varying the operational wavelength, which falls in the first normal dispersion regime. The amplitude of the radiation can be significantly increased by introducing a suitable amount of chirp in the input pulse. This strong phase-matching radiation can be considered as an alternative solution for the IR laser for different applications.

© 2011 Optical Society of America

Dynamics of Raman soliton during supercontinuum generation near the zero-dispersion wavelength of optical fibers

Samudra Roy, Shyamal K. Bhadra, Kunimasa Saitoh, Masanori Koshiba, and Govind P. Agrawal
Opt. Express 19(11) 10443-10455 (2011)

Efficient mid-infrared dispersive wave generation through soliton breakup and cascaded Raman amplification in an axially varying fluorotellurite fiber

Linghao Cui, Zhixu Jia, Xiaohui Guo, Yadong Jiao, Yasutake Ohishi, Weiping Qin, and Guanshi Qin
Opt. Mater. Express 13(10) 2953-2963 (2023)

Soliton trapping of dispersive waves in photonic crystal fiber with two zero dispersive wavelengths

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Opt. Express 21(9) 11215-11226 (2013)

Efficiency of dispersive wave generation in dual concentric core microstructured fiber

D. Modotto, M. Andreana, K. Krupa, G. Manili, U. Minoni, A. Tonello, V. Couderc, A. Barthélémy, A. Labruyère, B. M. Shalaby, P. Leproux, S. Wabnitz, and A. B. Aceves
J. Opt. Soc. Am. B 32(8) 1676-1685 (2015)

Mid-IR multipeak and stepwise blueshifted dispersive wave generation in liquid-filled chalcogenide capillary optical fibers

Satya P. Singh, V. Mishra, and Shailendra K. Varshney
J. Opt. Soc. Am. B 33(11) D65-D71 (2016)