Thermo-mechanical dynamics of nanoimprinting anti-reflective structures onto small-core mid-IR chalcogenide fibers [Invited]
Christian Petersen, Mikkel R. Lotz, Christos Markos, Getinet Woyessa, David Furniss, Angela B. Seddon, Rafael Taboryski, Ole Bang
Abstract
Thermal nanoimprinting is a fast and versatile method for transferring the anti-reflective properties of subwavelength nanostructures onto the surface of highly reflective substrates, such as chalcogenide glass optical fiber end-facets. In this paper, the technique is explored experimentally on a range of different types of commercial and custom-drawn optical fibers to evaluate the influence of geometric design, core/cladding material, and thermo-mechanical properties. Up to 32.4 % increased transmission and 88.3 % total transmission is demonstrated in the 2-4.3 µm band using a mid-infrared super-continuum laser.
Topics & Concepts
ChalcogenideCore (optical fiber)Materials scienceOpticsChalcogenide glassComposite materialOptoelectronicsPhysicsPhotonic Crystal and Fiber OpticsPhotonic Crystals and ApplicationsAdvanced Fiber Optic Sensors