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Photonics / Cavity opto-mechanics / Atomic physics / Quantum information science / Optical tweezers / Optical cavity / Laser cooling / Resonance / Resonator / Physics / Biology / Optics


Cavity cooling of an optically levitated submicron particle Nikolai Kiesel1,2, Florian Blaser1, Uroš Delic, David Grass, Rainer Kaltenbaek, and Markus Aspelmeyer2 Vienna Center for Quantum Science and Technology (VCQ),
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Document Date: 2014-05-16 17:55:32

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City

Chuang / Shneider / Leroux / Cambridge / Regal / Vienna / Publishing / Chang / /

Company

Austrian Science Fund / Perot / Discovery Semiconductor / Doctoral Programme Complex Quantum Systems / /

Country

Singapore / /

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Facility

Van Camp / Keck Institute / Uroš Deli / University of Vienna / Harvard University / /

IndustryTerm

gas resulting / background gas / control protocols / kinetic energy / transduction applications / cavity optomechanical systems / clamped mechanical systems / steel tube / computing / mesoscopic mechanical systems / kinetic gas theory / aqueous solution / residual gas pressure / isopropanol solution / /

MarketIndex

case 14180 / /

Organization

National Park Service / Harvard University / University of Vienna / Faculty of Physics / European Commission / Markus Aspelmeyer2 Vienna Center for Quantum Science and Technology / Austrian Academy / /

Person

J. Schmöle / Rainer Kaltenbaek / Grant Quantum Optomechanics / David Grass / /

Position

Author / /

ProgrammingLanguage

D / C / /

ProvinceOrState

Maryland / Massachusetts / /

Technology

radiation / laser / Lasers / cav / dielectric / phase modulation / control protocols / /

URL

www.pnas.org/lookup/suppl/doi / www.pnas.org/cgi/doi/10.1073/pnas.1309167110 / /

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