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Characterization of radiation pressure and thermal effects in a nanoscale optomechanical cavity Ryan M. Camacho, Jasper Chan, Matt Eichenfield, and Oskar Painter Thomas J. Watson, Sr., Laboratory of Applied Physics, Cali
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Document Date: 2009-10-19 13:24:18

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File Size: 1,95 MB

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Facility

University of Arizona / Laboratory of Applied Physics / California Institute of Technology / /

IndustryTerm

nanomechanical waveguide devices / coupled device / gas detection / gas action / micro-optomechanical systems / bank / low-pressure chemical vapor deposition / high-speed signal processing / tunable photonics applications / zipper cavity devices / microelectromechanical devices / internal optical cavity energy / guided-wave devices / photonic devices / energy / /

Organization

California Institute of Technology / Gradient Optical Force / National Science Foundation / Optical Society of America OCIS / Laboratory of Applied Physics / University of Arizona / /

Person

Nat / Matt Eichenfield / Ryan M. Camacho / Ni / Oskar Painter Thomas / Thomas J. Watson / Sr. / /

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Position

cto / fiber polarization controller / VOA Pump Laser VOA Polarization Controller MUX Probe Laser Polarization Controller / gtm cto / pump-probe measured cto / Painter / /

ProvinceOrState

Arizona / /

PublishedMedium

OPTICS EXPRESS / Nature Photonics / /

Technology

radiation / Laser / lasers / dielectric / spectroscopy / Radio frequency / lithography / simulation / optical fiber / chemical vapor deposition / /

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http /

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