Research on all-optical wavelength conversion technology based on dual-pumped FWM

Yi Kang; Zhi Liu; YiDi Chang; Mingxue Shi

doi:10.1117/12.2668013

20 April 2023 Research on all-optical wavelength conversion technology based on dual-pumped FWM

Yi Kang, Zhi Liu, YiDi Chang, Mingxue Shi

Proceedings Volume 12602, International Conference on Electronic Information Engineering and Computer Science (EIECS 2022); 1260215 (2023) https://doi.org/10.1117/12.2668013
Event: International Conference on Electronic Information Engineering and Computer Science (EIECS 2022), 2022, Changchun, China

Abstract

With the development of globalization and information technology, space laser communication technology has gradually developed from point-to-point mode to point-to-multipoint mode of simultaneous laser communication. In order to solve the problem of high-speed data transmission in one-to-many laser communication relay network, laser with different polarization angles is affected by the atmosphere to different degrees, this paper built an all-optical wavelength conversion system under atmospheric turbulence environment based on OptiSystem simulation platform. The all-optical wavelength conversion technique of OOK modulated signal based on FWM parameter effect with double pump structure is studied. The results show that the all-optical wavelength conversion scheme with parallel dual-pump structure can realize the polarization insensitivity of the signal and reduce the influence of atmospheric turbulence on the communication system.

Citation Download Citation

Yi Kang, Zhi Liu, YiDi Chang, and Mingxue Shi "Research on all-optical wavelength conversion technology based on dual-pumped FWM", Proc. SPIE 12602, International Conference on Electronic Information Engineering and Computer Science (EIECS 2022), 1260215 (20 April 2023); https://doi.org/10.1117/12.2668013

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KEYWORDS

Polarization

Laser communications

Technology

Telecommunications

Free space optics

Four wave mixing

Relays

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