Title :
Compact Thermally Tunable Silicon Wavelength Switch: Modeling and Characterization
Author :
Wang, Xuan ; Martinez, Jose A. ; Nawrocka, Magdalena S. ; Panepucci, Roberto R.
Author_Institution :
Dept. of Electr. & Comput. Eng., Florida Int. Univ., Miami, FL
fDate :
6/1/2008 12:00:00 AM
Abstract :
A wavelength-selective photonic switch is developed based on a Si microring resonator using thermooptic effect. The 10-mum-diameter microring resonator uses single-mode strip Si waveguides of dimension 0.25 mum times 0.45 mum operating at 1.5 mum. Full-width at half-maximum are in the range 0.1-0.2 nm. The ultrawide tunable range (>6.4 nm) and wide free spectral range (~18 nm) of the switch element enables wavelength reconflgurable multichannel matrix switch by wavelength multiplexing/demultiplexing. Average rise delay time of 14 mus with low switching power of 3.15 mW has been achieved with 0.2-nm wavelength tuning and 78 mus, 104 mW for 6.4-nm tuning. Fall delay times are usually less than 10 mus. Thermal simulations show 10%-20% agreement with the measurements up to 3.2-nm tuning. The compact size of the switch shows its potential as an active element in photonic integrated circuits.
Keywords :
elemental semiconductors; micro-optics; optical resonators; optical switches; silicon; thermo-optical effects; Si; compact thermally tunable wavelength switch; microring resonator; photonic integrated circuits; power 104 mW; power 3.15 mW; single-mode strip waveguides; size 0.25 mum; size 0.45 mum; size 10 mum; thermal simulations; thermooptic effect; time 14 mus; time 78 mus; wavelength 0.2 nm; wavelength 1.5 mum; wavelength 3.2 nm; wavelength 6.4 nm; wavelength demultiplexing; wavelength multiplexing; wavelength reconflgurable multichannel matrix switch; wavelength tuning; wavelength-selective photonic switch; Circuit optimization; Delay effects; Demultiplexing; Propagation delay; Silicon; Strips; Switches; Thermooptic effects; Transmission line matrix methods; Tunable circuits and devices; Microring resonator; silicon-on-insulator (SOI); thermooptic effect; wavelength tuning;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2008.922907
