Design and Performance of Low-Power, High-Speed, Polarization-Independent and Wideband Polymer Buried-Channel Waveguide Thermo-Optic Switches

Author

Nan Xie ; Hashimoto, Toshikazu ; Utaka, K.

Author_Institution

Fac. of Sci. & Eng., Waseda Univ., Tokyo, Japan

Volume

32

Issue

17

fYear

2014

fDate

Sept.1, 1 2014

Firstpage

3067

Lastpage

3073

Abstract

This paper analytically and experimentally investigates and compares the characteristics of two kinds of polymer buried-channel waveguide thermo-optic switches such as 1) a multimode interference (MMI) switch using a single MMI coupler and 2) a Mach-Zehnder interferometer (MZI) switch. Especially, the MZI switch experimentally exhibited low-power consumption of 3.5 mW, high-speed with a response time of less than 200 μs, polarization independence as well as in a wideband of about 80 nm. These low-power consumption, relatively high-speed, and polarization-independent switching characteristics are almost coincident with the designed ones. Furthermore, an improved MZI structure is proposed for lower switching power consumption, and it is expected below 0.5 mW with an enhanced thermal localization structure.

Keywords

Mach-Zehnder interferometers; optical couplers; optical polymers; optical switches; optical waveguides; thermo-optical devices; Mach-Zehnder interferometer switch; high-speed thermo-optic switches; low-power thermo-optic switches; multimode interference switch; polarization-independent thermo-optic switches; power 3.5 mW; single MMI coupler; wideband polymer buried-channel waveguide thermo-optic switches; Heating; Optical switches; Optical waveguides; Polymers; Power demand; Time factors; Mach??Zehnder interferometer; multi-mode interference; optical polymers; optical switches; thermo-optic effects;

fLanguage

English

Journal_Title

Lightwave Technology, Journal of

Publisher

ieee

ISSN

0733-8724

Type

jour

DOI

10.1109/JLT.2014.2335814

Filename

6848781