Title :
Stretched-film micromirrors for improved optical flatness
Author :
Nee, Jocelyn T. ; Conant, Robert A. ; Hart, Matthew R. ; Muller, Richard S. ; Lau, Kam Y.
Author_Institution :
Sensor & Actuator Center, California Univ., Berkeley, CA, USA
Abstract :
We have developed a new tensile optical-surface (TOS) process to produce optically flat micromirrors capable of scanning at high frequencies. A polysilicon membrane is stretched across a stiff, single-crystal silicon-rib structure. This structure increases the stiffness of the mirror without significantly increasing its mass. The low mass makes possible high operating frequencies without deformation that could significantly compromise the optical performance of the mirror. Electrostatic comb drives, made of thick single-crystal silicon, provide large forces that enable mirror operation at tens of kHz
Keywords :
chemical mechanical polishing; electrostatic actuators; internal stresses; membranes; micro-optics; micromachining; mirrors; modal analysis; optical fabrication; optical scanners; rapid thermal annealing; silicon; sputter etching; CMP step; MOEMS; RTA; Si; deep RIE; dynamic deformations; electrostatic comb drives; folding hinge; high operating frequencies; high-speed scanning; hybrid bulk/surface micromachining; improved optical flatness; large forces; low mass; mirror stiffness; modal analysis; polysilicon membrane; scanning micromirrors; single-crystal silicon-rib structure; static deformations; stretched-film micromirrors; tensile optical-surface process; Biomembranes; Fasteners; High speed optical techniques; Micromirrors; Mirrors; Optical design; Optical films; Optical sensors; Optical surface waves; Silicon;
Conference_Titel :
Micro Electro Mechanical Systems, 2000. MEMS 2000. The Thirteenth Annual International Conference on
Conference_Location :
Miyazaki
Print_ISBN :
0-7803-5273-4
DOI :
10.1109/MEMSYS.2000.838604
