Journal
OPTICS LETTERS
Volume 28, Issue 11, Pages 932-934Publisher
OPTICAL SOC AMER
DOI: 10.1364/OL.28.000932
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Precise control of micromirror curvature is critical in many optical microsystems. Micromirrors with current-controlled curvature are demonstrated. The working principle is that resistive heating changes the temperature of the micromirrors and thermal expansion induces a controlled curvature whose magnitude is determined by coating design. For example, for wide focal-length tuning, the radius of curvature of a gold-coated mirror was tuned from 2.5 to 8.2 min over a current-induced temperature range from 22degrees to 72degreesC. For fine focal-length tuning, the radius of curvature of a dielectric-coated (SiO2/Y2O3 lambda/4 pairs) mirror was tuned from -0.68 to -0.64 min over a current-induced temperature range f oin 22 to 84 degreesC. These results should be readily extendable to mirror flattening or real-time adaptive shape control. (C) 2003 Optical Society of America.
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