Cooling a Macroscopic Mechanical Oscillator close to its Quantum Ground State

Leonhard Neuhaus; Rémi Metzdorff; Salim Zerkani; Sheon Chua; Thibaut Jacqmin; Samuel Deléglise; Tristan Briant; Antoine Heidmann; Pierre-François Cohadon

doi:10.1364/QIM.2017.QF2C.3

Quantum Information and Measurement (QIM) 2017
OSA Technical Digest (online) (Optica Publishing Group, 2017),
paper QF2C.3
•https://doi.org/10.1364/QIM.2017.QF2C.3

Cooling a Macroscopic Mechanical Oscillator close to its Quantum Ground State

Leonhard Neuhaus, Rémi Metzdorff, Salim Zerkani, Sheon Chua, Thibaut Jacqmin, Samuel Deléglise, Tristan Briant, Antoine Heidmann, and Pierre-François Cohadon

Quantum Information and Measurement 2017

Paris France
5–7 April 2017
ISBN: 978-1-943580-26-2

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Quantum Metrology and Nanomechanics (QF2C)

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L. Neuhaus, R. Metzdorff, S. Zerkani, S. Chua, T. Jacqmin, S. Deléglise, T. Briant, A. Heidmann, and P. Cohadon, "Cooling a Macroscopic Mechanical Oscillator close to its Quantum Ground State," in Quantum Information and Measurement (QIM) 2017, OSA Technical Digest (online) (Optica Publishing Group, 2017), paper QF2C.3.

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Abstract

We describe our experimental progress towards the demonstration of quantum effects in the motion of a 33-µg mechanical resonator, with a mass 1000 times above the heaviest system demonstrated so far in the quantum ground state.

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