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19 April 2017 Different designs and glass compositions of chalcogenide microstructured optical fibers for different applications (Conference Presentation)
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Proceedings Volume 10100, Optical Components and Materials XIV; 101001E (2017)
Event: SPIE OPTO, 2017, San Francisco, California, United States
Chalcogenide glasses are known for their large transparency in the mid-infrared (Mid-IR) and their high nonlinear optical properties. Indeed, chalcogenide glasses can present a high non-linear coefficient (n2), 100 to 1000 times larger than for silica glass, depending on the composition. An original way to obtain fibers is to design microstructured optical fibers (MOFs). These fibers present unique optical properties thanks to the high degree of freedom in the design of their geometrical structure. Various chalcogenide MOFs operating in the mid-IR range have been elaborated in order to associate the high nonlinear properties of these glasses and the original MOF properties. Different glass compositions and different designs have been achieved depending on the intended application. Indeed, chalcogenide MOFs might lead to new devices with unique optical properties in the Mid-IR domain like multimode or endlessly single mode transmission of light, small or large mode area fibers, non-linear properties for wavelength conversion or generation of supercontinuum sources. In the 1-12 µm window, single mode fibers, polarization maintaining fibers and exposed core fibers have been realized for Gaussian beams propagation and sensors applications. In this context, different applications such as Brillouin laser, all optical demultiplexing, mid-IR supercontinuum generation, quantum cascade laser pigtailing and mid-IR spectroscopy will be exposed.
Conference Presentation
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Johann Troles, Laurent Brilland, Céline Caillaud, and Jean-Luc Adam "Different designs and glass compositions of chalcogenide microstructured optical fibers for different applications (Conference Presentation)", Proc. SPIE 10100, Optical Components and Materials XIV, 101001E (19 April 2017);

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