TOWARDS MIR (MID-INFRARED) FIBER LASING- Extrusion and Fiber-drawing of Composite Material Rod Preforms
Abstract
The overall aim of this research is to demonstrate MIR (mid-infrared) fiber lasing by fabricating fiber from a composite material comprising- Fe-ZnSe active nano-crystals suspended in a chalcogenide glass host. The active fibers are nano-glass-ceramics. Experiments to date, show that the Fe-ZnSe nano-crystals tend to dissolve during glass melting. So the desired composite material of Fe-ZnSe active nano-crystals suspended in a chalcogenide glass host is not produced. To overcome this problem, the proposed Project comprises two new, parallel synthetic approaches of- (i) core-shell and (ii) extrusion. (i) The first synthetic approach of ‘core-shell’ is to deposit a protective shell around the Fe-ZnSe nanocrystals to prevent their dissolution during glass melting to make a composite rod at UCF. The composite material rod will be drawn to nano-glass-ceramic fiber at UoN. (ii) The second synthetic route is different. The Fe-ZnSe nano-crystals and glass powdered precursors will be extruded to make a composite material rod at UoN. The composite material rod will be drawn to nano-glass-ceramic fiber at UoN.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Jan 04, 2023
- Source ID
- FA86552117002
Entities
People
- Angela Seddon
Organizations
- Air Force Office of Scientific Research
- United States Air Force
- University of Nottingham