Optomechanical effects of two-level systems in a back-action evading measurement of micro-mechanical motion J. Suh, A. J. Weinstein, and K. C. Schwab Applied Physics, California Institute of Technology, Pasadena, CA 9112 - Harmonic oscillator - Document - PDFSEARCH.IO

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	Optomechanical effects of two-level systems in a back-action evading measurement of micro-mechanical motion J. Suh, A. J. Weinstein, and K. C. Schwab Applied Physics, California Institute of Technology, Pasadena, CA 9112 Add to Reading List Document Date: 2013-04-29 19:34:56 Open Document File Size: 1,47 MB Share Result on Facebook City Berlin / Cambridge / Pasadena / London / New York / / Company QUANTUM / superconducting LC / / Facility California Institute of Technology / / IndustryTerm microwave energy / electromechanical systems / micron-scale systems / / Organization Betty Moore Foundation / California Institute of Technology / NSF Physics Frontiers Center / National Science Foundation / Institute for Quantum Information and Matter / / Person M. P. Blencowe / S. Kumar / A. Vayonakis / H. G. LeDuc / J. Suh / K. Jacobs / S. McHugh / M. L. Roukes / A. D. Turner / W. P. Drever / V / F. Marquardt / Microwave Resonators / O. Buu / Nat / B. Sadoulet / A. J. Weinstein / A. Merrill / J. Gao / P. K. Day / D. C. Moore / K. C. Schwab / M. D. Shaw / A. J. Sirois / J. Zmuidzinas / B. A. Mazin / O. Noroozian / / Position Clerk / Bishop / Phys / / ProvinceOrState California / New York / / Technology radiation / dielectric / microwave / / SocialTag Ordinary differential equations Quantum electronics Quantum information science Resonance Resonator Harmonic oscillator Microwave Electronic filter Mechanical resonance Physics

Optomechanical effects of two-level systems in a back-action evading measurement of micro-mechanical motion J. Suh, A. J. Weinstein, and K. C. Schwab Applied Physics, California Institute of Technology, Pasadena, CA 9112Add to Reading List