Bandwidth enhancement of inter-modal four wave mixing Bragg scattering by means of dispersion engineering

Omar F. Anjum; Peter Horak; Yongmin Jung; Masato Suzuki; Yoshinori Yamamoto; Takemi Hasegawa; Periklis Petropoulos; David J. Richardson; Francesca Parmigiani

Journal ArticleOPEN ACCESS

Bandwidth enhancement of inter-modal four wave mixing Bragg scattering by means of dispersion engineering

Anjum O
Horak P
Jung Y
et al.

APL Photonics (2019) 4(2)

DOI: 10.1063/1.5048495

22Citations

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Abstract

We report on the design, fabrication, and experimental characterization of germanium-doped graded-index multi-mode fibers that are tailored to achieve broadband operation for the inter-modal Bragg scattering four wave mixing process. First, we show that increasing the core diameter decreases the separation between the pumps and the signal/idler pair. Second, we demonstrate a conversion efficiency bandwidth (7 nm) of more than twice that achieved previously with half the fiber length (50 m).

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APA

Anjum, O. F., Horak, P., Jung, Y., Suzuki, M., Yamamoto, Y., Hasegawa, T., … Parmigiani, F. (2019). Bandwidth enhancement of inter-modal four wave mixing Bragg scattering by means of dispersion engineering. APL Photonics, 4(2). https://doi.org/10.1063/1.5048495

Bandwidth enhancement of inter-modal four wave mixing Bragg scattering by means of dispersion engineering

Abstract

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