Title :
Silica/Polymer TIR Optical Switches and a Proposal for Nonblocking Four-Port Routers
Author :
Chuan-Tao Zheng ; Lei Liang ; Wei-Lin Ye ; Da-Ming Zhang ; Chun-Sheng Ma
Author_Institution :
State Key Lab. on Integrated Optoelectron., Jilin Univ., Changchun, China
Abstract :
We have fabricated a wavelength-insensitive silica/polymer total-internal-reflection thermooptic switch element using photolithography and wet etching techniques. A switching power of 70 mW is required to drop the crosstalk below -20 dB. Under through and reflection states, the propagation losses of the 0.47-cm long core switch element are measured to be 1.8 and 3.6 dB, respectively. The 10%-90% rise time and the 90%-10% fall time are 0.35/0.38 and 0.52 ms, respectively. Using 11 switch elements, we have proposed a nonblocking four-port optical router. The propagation loss range is ~5.4-23.4 dB along all routing paths. Both the switch and the router show potential applications of wideband signal switching and routing in multiprocessor-based optical networks-on-chip.
Keywords :
etching; integrated optics; integrated optoelectronics; network-on-chip; optical communication equipment; optical fabrication; optical losses; optical polymers; optical switches; photolithography; silicon compounds; thermo-optical devices; SiO2; core switch element; crosstalk; fall time; loss 1.8 dB; loss 3.6 dB; loss 5.4 dB to 23.4 dB; multiprocessor-based optical networks-on-chip; nonblocking four-port optical router; photolithography; power 70 mW; propagation losses; reflection states; rise time; routing paths; silica/polymer TIR optical switches; size 0.47 cm; switching power; time 0.35 ms to 0.38 ms; time 0.52 ms; wavelength-insensitive silica/polymer total-internal-reflection thermooptic switch element; wet etching techniques; wideband signal routing; wideband signal switching; Optical device fabrication; Optical reflection; Optical switches; Optical waveguides; Propagation losses; Integrated optical device; optical networks-on-chip; optical switching device; optoelectronics;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2014.2385733
