Journal ArticleDOI
Development and Infrared Applications of Chalcogenide Glass Optical Fibers
Jasbinder S. Sanghera,Leslie Brandon Shaw,Lynda E. Busse,Vinh Q. Nguyen,P.C. Pureza,B. C. Cole,B. B. Harrison,Ishwar D. Aggarwal,R. Mossadegh,Frederic H. Kung,D. Talley,D. Roselle,R.E. Miklos +12 more
TLDR
Chalcogenide glass fibers based on sulphide, selenide, telluride, and their rare earth doped compositions are being actively pursued both at the Naval Research Laboratory in Washington, D.C. and worldwide.Abstract:
Chalcogenide glass fibers based on sulphide, selenide, telluride, and their rare earth doped compositions are being actively pursued both at the Naval Research Laboratory in Washington, D.C. (NRL) and worldwide. Great strides have been made in reducing optical losses using improved chem ical purification techniques, but further improvements are needed in both purification and fiberization technology to attain the theoretical optical losses. Despite this, current singlemode and multimode chalcogenide glass fibers are enabling numerous applications. Some of these applications include laser power delivery, chemical sensing, imaging, scanning near field microscopy spectroscopy, fiber infrared (IR) sources lasers, amplifiers, and optical switches. The authors assert that the research and development of chalcogenide glasses will grow in the foreseeable future, especially with respect to improvements the optical quality of the fibers and the performance of the fibers in existing future applications.read more
Citations
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Journal ArticleDOI
Ultrafast all-optical chalcogenide glass photonic circuits
Vahid G Ta'eed,Neil J. Baker,Libin Fu,K. Finsterbusch,Michael R. E. Lamont,David J. Moss,H.C. Nguyen,Benjamin J. Eggleton,Duk-Yong Choi,Steven J. Madden,Barry Luther-Davies +10 more
TL;DR: The key properties of Chalcogenide glasses are reviewed, including the strong photosensitivity, and several recent demonstrations of ultra-fast all-optical signal processing are focused on: optical time division multiplexing, all- optical signal regeneration and wavelength conversion.
Patent
High index-contrast fiber waveguides and applications
TL;DR: In this article, materials for forming high index-contrast fiber waveguides, and applications of high index contrast fiber waveguide are disclosed, as well as applications of such waveguiders.
Journal ArticleDOI
Progress in rare-earth-doped mid-infrared fiber lasers.
TL;DR: The progress, and current challenges, in fabricating rare-earth-doped chalcogenide-glass fibers for developing mid-infrared (IR) fiber lasers are reviewed and for the first time a coherent explanation is forwarded for the failure to date to develop a gallium-lanthanum-sulfide glass mid-IR fiber laser.
Patent
Photonic crystal fibers and medical systems including photonic crystal fibers
Burak Temelkuran,Charalambos Anastassiou,David Scott Torres,Gil Shapira,Max Shurgalin,Gregor Dellemann,Ori Weisberg,Steven A. Jacobs,Tairan Wang,Uri Kolodny,Jesse Rusk,Robert Payne,Yoel Fink +12 more
TL;DR: In this paper, a photonic crystal fiber including a core extending along a waveguide axis and a dielectric confinement region surrounding the core is used to guide the radiation along the waveguide from an input end to an output end.
Journal ArticleDOI
Single-mode low-loss chalcogenide glass waveguides for the mid-infrared.
Nicolas Hô,Mark C. Phillips,Hong Qiao,Paul J. Allen,Kannan Krishnaswami,Brian J. Riley,Tanya L. Myers,Norman C. Anheier +7 more
TL;DR: The design, fabrication, and characterization of single-mode low-loss waveguides for mid-infrared (MIR) wavelengths are demonstrated, a first step toward the design and fabrication of integrated optical components for MIR applications.