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Items: 1 to 20 of 519

1.

Sideband cooling of micromechanical motion to the quantum ground state.

Teufel JD, Donner T, Li D, Harlow JW, Allman MS, Cicak K, Sirois AJ, Whittaker JD, Lehnert KW, Simmonds RW.

Nature. 2011 Jul 6;475(7356):359-63. doi: 10.1038/nature10261.

PMID:
21734657
2.

Quantum-coherent coupling of a mechanical oscillator to an optical cavity mode.

Verhagen E, Deléglise S, Weis S, Schliesser A, Kippenberg TJ.

Nature. 2012 Feb 1;482(7383):63-7. doi: 10.1038/nature10787.

PMID:
22297970
3.

Circuit cavity electromechanics in the strong-coupling regime.

Teufel JD, Li D, Allman MS, Cicak K, Sirois AJ, Whittaker JD, Simmonds RW.

Nature. 2011 Mar 10;471(7337):204-8. doi: 10.1038/nature09898.

PMID:
21390127
4.

Hybrid circuit cavity quantum electrodynamics with a micromechanical resonator.

Pirkkalainen JM, Cho SU, Li J, Paraoanu GS, Hakonen PJ, Sillanpää MA.

Nature. 2013 Feb 14;494(7436):211-5. doi: 10.1038/nature11821.

PMID:
23407536
5.

Preparation and detection of a mechanical resonator near the ground state of motion.

Rocheleau T, Ndukum T, Macklin C, Hertzberg JB, Clerk AA, Schwab KC.

Nature. 2010 Jan 7;463(7277):72-5. doi: 10.1038/nature08681. Epub 2009 Dec 9.

PMID:
20010604
6.

Strong atom-field coupling for Bose-Einstein condensates in an optical cavity on a chip.

Colombe Y, Steinmetz T, Dubois G, Linke F, Hunger D, Reichel J.

Nature. 2007 Nov 8;450(7167):272-6.

PMID:
17994094
7.

Laser Cooling of a Micromechanical Membrane to the Quantum Backaction Limit.

Peterson RW, Purdy TP, Kampel NS, Andrews RW, Yu PL, Lehnert KW, Regal CA.

Phys Rev Lett. 2016 Feb 12;116(6):063601. doi: 10.1103/PhysRevLett.116.063601. Epub 2016 Feb 8.

PMID:
26918990
8.

Observation of strong coupling between a micromechanical resonator and an optical cavity field.

Gröblacher S, Hammerer K, Vanner MR, Aspelmeyer M.

Nature. 2009 Aug 6;460(7256):724-7. doi: 10.1038/nature08171.

PMID:
19661913
9.

Strong dispersive coupling of a high-finesse cavity to a micromechanical membrane.

Thompson JD, Zwickl BM, Jayich AM, Marquardt F, Girvin SM, Harris JG.

Nature. 2008 Mar 6;452(7183):72-5. doi: 10.1038/nature06715. Erratum in: Nature. 2008 Apr 17;452(7189):900.

PMID:
18322530
10.

Laser cooling of a nanomechanical oscillator into its quantum ground state.

Chan J, Alegre TP, Safavi-Naeini AH, Hill JT, Krause A, Gröblacher S, Aspelmeyer M, Painter O.

Nature. 2011 Oct 5;478(7367):89-92. doi: 10.1038/nature10461.

PMID:
21979049
11.

Cavity QED with a Bose-Einstein condensate.

Brennecke F, Donner T, Ritter S, Bourdel T, Köhl M, Esslinger T.

Nature. 2007 Nov 8;450(7167):268-71.

PMID:
17994093
12.

Multimode circuit optomechanics near the quantum limit.

Massel F, Cho SU, Pirkkalainen JM, Hakonen PJ, Heikkilä TT, Sillanpää MA.

Nat Commun. 2012;3:987. doi: 10.1038/ncomms1993.

13.

Large cooperativity and microkelvin cooling with a three-dimensional optomechanical cavity.

Yuan M, Singh V, Blanter YM, Steele GA.

Nat Commun. 2015 Oct 9;6:8491. doi: 10.1038/ncomms9491.

14.

Quantum ground state and single-phonon control of a mechanical resonator.

O'Connell AD, Hofheinz M, Ansmann M, Bialczak RC, Lenander M, Lucero E, Neeley M, Sank D, Wang H, Weides M, Wenner J, Martinis JM, Cleland AN.

Nature. 2010 Apr 1;464(7289):697-703. doi: 10.1038/nature08967. Epub 2010 Mar 17.

PMID:
20237473
15.

A picogram- and nanometre-scale photonic-crystal optomechanical cavity.

Eichenfield M, Camacho R, Chan J, Vahala KJ, Painter O.

Nature. 2009 May 28;459(7246):550-5. doi: 10.1038/nature08061.

PMID:
19489118
16.

Sub-kelvin optical cooling of a micromechanical resonator.

Kleckner D, Bouwmeester D.

Nature. 2006 Nov 2;444(7115):75-8.

PMID:
17080086
17.

Sympathetic cooling of a membrane oscillator in a hybrid mechanical-atomic system.

Jöckel A, Faber A, Kampschulte T, Korppi M, Rakher MT, Treutlein P.

Nat Nanotechnol. 2015 Jan;10(1):55-9. doi: 10.1038/nnano.2014.278. Epub 2014 Nov 24.

PMID:
25420032
18.

Controlling cavity reflectivity with a single quantum dot.

Englund D, Faraon A, Fushman I, Stoltz N, Petroff P, Vucković J.

Nature. 2007 Dec 6;450(7171):857-61.

PMID:
18064008
19.

Coherent state transfer between itinerant microwave fields and a mechanical oscillator.

Palomaki TA, Harlow JW, Teufel JD, Simmonds RW, Lehnert KW.

Nature. 2013 Mar 14;495(7440):210-4. doi: 10.1038/nature11915.

PMID:
23486060
20.

Microwave-induced cooling of a superconducting qubit.

Valenzuela SO, Oliver WD, Berns DM, Berggren KK, Levitov LS, Orlando TP.

Science. 2006 Dec 8;314(5805):1589-92.

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