Title :
Michelson Interferometer Thermo-Optic Switch on SOI With a 50-µW Power Consumption
Author :
Zeqin Lu ; Murray, Kyle ; Jayatilleka, Hasitha ; Chrostowski, Lukas
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of British Columbia, Vancouver, BC, Canada
Abstract :
We demonstrate photonic ultra-efficient thermo-optic switches on a 220-nm silicon-on-insulator platform. We used several approaches to increase the tuning efficiency of the switches. We used folded waveguides in a Michelson interferometer configuration to increase the optical interaction length of the light with the heated region, and used a suspended structure to improve thermal isolation. An ultra-low switching power of 50 μW is realized with an extinction ratio of over 26 dB for the transverse electric mode at 1550 nm. The 10%-90% response time of the switch is 1.28 ms, including a 780 μs rise time and a 500 μs fall time. Compared with the best thermo-optic switch in the literature, our device shows approximately an order of magnitude reduction in power consumption.
Keywords :
Michelson interferometers; integrated optics; optical switches; optical tuning; optical waveguides; silicon-on-insulator; thermo-optical devices; Michelson interferometer configuration; Michelson interferometer thermo-optic switch; SOI; extinction ratio; folded waveguides; heated region; optical interaction length; photonic thermo-optic switch; power 50 muW; power consumption; response time; silicon-on-insulator platform; suspended structure; switching power; thermal isolation; time 1.28 ms; time 500 mus; time 780 mus; transverse electric mode; tuning efficiency; wavelength 1550 nm; Heating; Optical interferometry; Optical switches; Optical waveguides; Power demand; Tuning; Silicon photonics; folded waveguides; low-power; suspended waveguides; thermo-optic switch;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2462341
