DocumentCode
1042497
Title
High aspect ratio micromirrors with large static rotation and piston actuation
Author
Milanovic, V. ; Sunghoon Kwon ; Lee, L.P.
Author_Institution
Adriatic Res. Inst., Berkeley, CA, USA
Volume
16
Issue
8
fYear
2004
Firstpage
1891
Lastpage
1893
Abstract
Monolithic high aspect ratio silicon micromirror devices were demonstrated with fully isolated vertical comb drives micromachined from the back side and front side of a 50-μm silicon-on-insulator device layer. The devices are suspended by torsional support beams and exhibit bidirectional single-axis rotation, as well as independent up- and down-pistoning actuation. The comb drives are fabricated with initial comb-finger preengagement of up to 10 μm for constant force actuation and have accurately self-aligned comb-fingers. Device 1 with a 30-μm-thick support beam measured static optical beam deflection from -20/spl deg/ to 19/spl deg/ and bidirectional pistoning motion from -7.5 to 8.25 μm. Device 2 utilizes a highly compliant 10-μm-thick support beam and measured static optical beam deflection from -14/spl deg/ to 16/spl deg/ and downward pistoning motion to -12.5 μm, all at <70 V.
Keywords
micromachining; micromirrors; optical fabrication; semiconductor devices; silicon; silicon-on-insulator; 10 mum; 30 mum; 30-/spl mu/m-thick support beam; 50 mum; 50-/spl mu/m silicon-on-insulator device layer; MEMS; Si; bidirectional pistoning; bidirectional single-axis rotation; comb-finger preengagement; down-pistoning actuation; high aspect ratio micromirrors; micromachining; monolithic high aspect ratio silicon micromirror devices; piston actuation; selfaligned comb fingers; silicon-on-insulator-based microelectromechanical systems; static optical beam deflection; static rotation; torsional support beams; up-pistoning actuation; vertical comb drives; Actuators; Biomedical optical imaging; Microelectromechanical systems; Micromechanical devices; Micromirrors; Motion measurement; Optical beams; Optical sensors; Pistons; Silicon on insulator technology;
fLanguage
English
Journal_Title
Photonics Technology Letters, IEEE
Publisher
ieee
ISSN
1041-1135
Type
jour
DOI
10.1109/LPT.2004.828351
Filename
1316958
Link To Document