Chalcogenide Glass Photonic Crystals

Freeman, Darren; Grillet, Christian; Lee, Michael; Smith, Cameron L C; Ruan, Yinlan; Rode, Andrei V; Krolikowska, Maryla; Tomljenovic-Hanic, Snjezana; de Sterke, C Martijn; Steel, Michael J; Luther-Davies, Barry; Madden, Steve; Moss, David J; Lee, Yong Hee; Eggleton, Benjamin J

Chalcogenide Glass Photonic Crystals

Date

2008

Authors

Freeman, Darren

Grillet, Christian

Lee, Michael

Smith, Cameron L C

Ruan, Yinlan

Rode, Andrei V

Krolikowska, Maryla

Tomljenovic-Hanic, Snjezana

de Sterke, C Martijn

Steel, Michael J

Publisher

Elsevier

Abstract

All-optical switching devices are based on a material possessing a nonlinear optical response, enabling light to control light, and are enjoying renewed interest. Photonic crystals are a promising platform for realizing compact all-optical switches operating at very low power and integrated on an optical integrated circuit. In this review, we show that by making photonic crystals from a highly nonlinear chalcogenide glass, we have the potential to integrate a variety of active devices into a photonic chip. We describe the fabrication and testing of two-dimensional Ge33As12 Se55 chalcogenide glass photonic crystal membrane devices (waveguides and microcavities). We then demonstrate the ability to post-tune the devices using the material photosensitivity. In one proposal we hope to introduce a double-heterostructure microcavity using the photosensitivity alone.