Share Email Print

Proceedings Paper

Thermo-optic switches using sol-gel processed hybrid materials
Author(s): Kada R. Kribich; Henry Barry; Robert Copperwhite; Boleslaw Kolodziejczyk; Kieran O'Dwyer; Jean-Marc Sabattie; Brian D. MacCraith
Format Member Price Non-Member Price
PDF $17.00 $21.00

Paper Abstract

There is a clear need for low cost, high performance and large-scale production of photonic chips. Network development requires more interconnecting components. A flexible and low-cost process using good quality material is necessary. The sol-gel process is a chemical method to fabricate glasses at ambient pressure and moderate temperature. The resulting material properties can be tuned depending on the precursors used. Hybrid materials, mixing organic and inorganic parts, offer the advantages of polymer-like materials and glasses. We have developed sol-gel-processed integrated optical circuits using hybrid materials. We report on the development of active devices based on the thermo-optic effect. Thermo-optic coefficients as high as -2.10-4/°K have been measured in our materials. This enables the design of compact devices with low power consumption. Our goal is to utilise the thermo-optic effect in the development of integrated optical switches. The kHz response time of such switches makes them unsuitable for modulation applications, but they can be used for network protection, reconfiguration purposes in routing and multiplexing applications such as Code Division Multiplexing. New designs, based on multimode interference couplers (MMIC), have also been created. In this work we first describe the synthesis of the hybrid materials as well as the fabrication processes. Using the measured properties of the materials developed, we can simulate the optical and thermal properties of the target devices. The simulation results have been exploited to model and optimise a range of switch designs, including MMI-based 1xN switches. Finally, we report on the full characterisation of the different structures and devices created in terms of fabrication quality and optical and thermal response.

Paper Details

Date Published: 18 August 2004
PDF: 11 pages
Proc. SPIE 5451, Integrated Optics and Photonic Integrated Circuits, (18 August 2004); doi: 10.1117/12.546103
Show Author Affiliations
Kada R. Kribich, Dublin City Univ. (Ireland)
Henry Barry, Dublin City Univ. (Ireland)
Robert Copperwhite, Dublin City Univ. (Ireland)
Boleslaw Kolodziejczyk, Dublin City Univ. (Ireland)
Kieran O'Dwyer, Dublin City Univ. (Ireland)
Jean-Marc Sabattie, Dublin City Univ. (Ireland)
Brian D. MacCraith, Dublin City Univ. (Ireland)

Published in SPIE Proceedings Vol. 5451:
Integrated Optics and Photonic Integrated Circuits
Giancarlo C. Righini; Seppo Honkanen, Editor(s)

© SPIE. Terms of Use
Back to Top