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1.9 µm all-optical wavelength converter based on a graphene oxide coated microfiber
An all-optical wavelength converter based on graphene oxide (GO) is proposed at the 1.9
µm band. The homemade GO-coated microfiber is acquired through the optical deposition …
µm band. The homemade GO-coated microfiber is acquired through the optical deposition …
Characterization and modeling of microstructured chalcogenide fibers for efficient mid-infrared wavelength conversion
We experimentally demonstrate wavelength conversion in the 2 µm region by four-wave
mixing in an AsSe and a GeAsSe chalcogenide photonic crystal fibers. A maximum …
mixing in an AsSe and a GeAsSe chalcogenide photonic crystal fibers. A maximum …
Semiconductor optical amplifiers at 2.0-µm wavelength heterogeneously integrated on silicon
Semiconductor optical amplifiers at 2.0-µm wavelength heterogeneously integrated on silicon
Page 1 SM4G.4.pdf CLEO:2016 © OSA 2016 Semiconductor optical amplifiers at 2.0-µm …
Page 1 SM4G.4.pdf CLEO:2016 © OSA 2016 Semiconductor optical amplifiers at 2.0-µm …
Small core Chalcogenide photonic crystal fiber for mid-infrared wavelength conversion: experiment and design
Small core Chalcogenide photonic crystal fiber for mid- infrared wavelength conversion:
experiment and design Page 1 STh1O.6.pdf CLEO:2016 © OSA 2016 Small core Chalcogenide …
experiment and design Page 1 STh1O.6.pdf CLEO:2016 © OSA 2016 Small core Chalcogenide …