Title :
Monolithic 2-D scanning mirror using self-aligned angular vertical comb drives
Author :
Kim, Jongbaeg ; Christensen, Dane ; Lin, Liwei
Author_Institution :
Sch. of Mech. Eng., Yonsei Univ., Seoul, South Korea
Abstract :
We have demonstrated microfabricated, monolithic two degrees of freedom (two-dimensional) electrostatic torsional mirrors using a three-mask process on silicon-on-insulator wafer with a single plastic deformation step. The mirror operated independently in two orthogonal directions as controlled by two sets of self-aligned angular vertical combs. The measured dynamic performance showed resonant frequencies of 10.56 and 1.54 kHz with optical scanning angles up to 27° and 20° in the two orthogonal axes, respectively, under driving voltages of 20 Vdc plus 15 Vpp. A 90-day continuous mirror operation at peak resonance, in equivalent to 80 and 12.1 billion cycles on the two orthogonal axes, showed negligible performance variations.
Keywords :
electrostatic devices; integrated optics; integrated optoelectronics; microactuators; micromirrors; monolithic integrated circuits; optical scanners; plastic deformation; silicon-on-insulator; 1.54 kHz; 10.56 kHz; 20 V; 2D scanning mirror; 90 day; Si; angular vertical comb drives; electrostatic mirrors; microfabricated mirrors; monolithic scanning mirror; plastic deformation; scanning mirror actuator; self-aligned comb drives; silicon-on-insulator wafer; three-mask process; torsional mirrors; Actuators; Assembly; Electrostatics; Fabrication; Micromirrors; Mirrors; Optical sensors; Plastics; Silicon on insulator technology; Two dimensional displays; Angular vertical comb; microelectromechanical systems; plastic deformation; scanning micromirror; two-dimensional (2-D) microactuator;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2005.857612
