000160304 001__ 160304
000160304 005__ 20181203022208.0
000160304 0247_ $$2doi$$a10.1103/PhysRevLett.101.263602
000160304 02470 $$2ISI$$a000262247100030
000160304 037__ $$aARTICLE
000160304 245__ $$aParametric Normal-Mode Splitting in Cavity Optomechanics
000160304 269__ $$a2008
000160304 260__ $$c2008
000160304 336__ $$aJournal Articles
000160304 520__ $$aRecent experimental progress in cavity optomechanics has allowed cooling of mesoscopic mechanical oscillators via dynamic backaction provided by the parametric coupling to either an optical or an electrical resonator. Here we analyze the occurrence of normal-mode splitting in backaction cooling at high input power. We find that a hybridization of the oscillator's motion with the fluctuations of the driving field occurs and leads to a splitting of the mechanical and optical fluctuation spectra. Moreover, we find that cooling experiences a classical limitation through the cavity lifetime.
000160304 6531_ $$aSingle Quantum-Dot
000160304 6531_ $$aNanomechanical Resonator
000160304 6531_ $$aRadiation-Pressure
000160304 6531_ $$aBack-Action
000160304 6531_ $$aMicromirror
000160304 6531_ $$aMicrocavity
000160304 6531_ $$aPhoton
000160304 6531_ $$aSystem
000160304 700__ $$0244969$$g198015$$aDobrindt, J. M.
000160304 700__ $$aWilson-Rae, I.
000160304 700__ $$aKippenberg, T. J.$$g182444$$0244694
000160304 773__ $$j101$$tPhysical Review Letters$$q-
000160304 909C0 $$0252348$$pLPQM
000160304 909CO $$particle$$ooai:infoscience.tind.io:160304$$pSB$$pSTI
000160304 917Z8 $$xWOS-2010-11-30
000160304 917Z8 $$x102085
000160304 937__ $$aEPFL-ARTICLE-160304
000160304 973__ $$rREVIEWED$$sPUBLISHED$$aEPFL
000160304 980__ $$aARTICLE