Mid-infrared frequency conversion via normal dispersion modulation instability in chalcogenide fibers

Lai Liu; Kenshiro Nagasaka; Takenobu Suzuki; Yasutake Ohishi

doi:10.1117/12.2289640

22 February 2018 Mid-infrared frequency conversion via normal dispersion modulation instability in chalcogenide fibers

Lai Liu, Kenshiro Nagasaka, Takenobu Suzuki, Yasutake Ohishi

Proceedings Volume 10528, Optical Components and Materials XV; 105281S (2018) https://doi.org/10.1117/12.2289640
Event: SPIE OPTO, 2018, San Francisco, California, United States

Abstract

Mid-infrared frequency conversion via normal dispersion modulation instability in chalcogenide fibers has been numerically investigated by calculating the phase matching conditions and solving the generalized nonlinear Schrödinger equation. The core material of the chalcogenide fibers is As₂Se₃ and the cladding material is As₂S₅. Usually, the larger converted wavelength spacing between the pump and the far-detuned converted signal, the smaller gain. Therefore, the dispersion of the chalcogenide fibers are optimized to balance the gain and the converted signal wavelength spacing. The results show that the converted far-detuned mid-infrared signal can be tuned to 10 μm. The results also show that for a pumping source with the fixed wavelength, the far-detuned frequency conversion can be optimized by controlling the core size of step-index chalcogenide fibers. By using the simple step-index structure and controlling the core size of the chalcogenide fibers, the far-detuned mid-infrared frequency conversion can be achieved.

Citation Download Citation

Lai Liu, Kenshiro Nagasaka, Takenobu Suzuki, and Yasutake Ohishi "Mid-infrared frequency conversion via normal dispersion modulation instability in chalcogenide fibers", Proc. SPIE 10528, Optical Components and Materials XV, 105281S (22 February 2018); https://doi.org/10.1117/12.2289640

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KEYWORDS

Dispersion

Chalcogenides

Mid-IR

Frequency conversion

Optical fibers

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