DocumentCode
1124753
Title
Ultrasmall Thermally Tunable Microring Resonator With a Submicrometer Heater on Si Nanowires
Author
Dai, Daoxin ; Yang, Liu ; He, Sailing
Author_Institution
Zhejiang Univ., Hangzhou
Volume
26
Issue
6
fYear
2008
fDate
3/15/2008 12:00:00 AM
Firstpage
704
Lastpage
709
Abstract
An ultracompact widely tunable thermooptical (TO) microring resonator (MRR) filter based on Si nanowires is presented. The Si nanowire waveguide has a insulator, Si core, a up-cladding, and a thin metal film at the top. The metal circuit along the microring is used as a submicrometer heater which has the same width as the Si nanowire waveguide. The up-cladding is optimized to reduce the light absorption of the metal as well as to have a good heat-conduction from the heater to the Si core. Two pads used as the contact points for the probes connecting to the electrical power are perpendicularly connected to the microring by using optimized T-junctions (with a low excess loss of about 0.06 dB per T-junction). With such a design, the present thermally tunable microring resonator (MRR) can be fabricated by using a standard fabrication process with a single lithography process, which is much simpler than the fabrication with double lithography processes used for the conventional TO components. Finally, the simulation results show that the designed MRR has a wide tuning range of about 20 nm with a low heating power of 5 mW.
Keywords
heat conduction; integrated optics; lithography; micro-optics; microcavities; micromechanical resonators; nanowires; resonator filters; silicon; thermo-optical devices; Si; Si nanowire waveguide; contact points; heat-conduction; lithography process; metal circuit; submicrometer heater; thermooptical microring resonator filter; ultrasmall thermally tunable resonator; up-cladding; Absorption; Contacts; Fabrication; Insulation; Lithography; Metal-insulator structures; Nanowires; Resonator filters; Semiconductor films; Tunable circuits and devices; Filter; Si; microring; nanowire; resonator; thermal; tunable;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/JLT.2007.915274
Filename
4484107
Link To Document