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A macroscopic object passively cooled into its quantum ground state of motion
Eddy Collins
Institut Néel, Grenoble-CNRS
Mercredi 08/12/2021, 11:00-12:00
CEA Bât 774, Amphi Claude Bloch, Orme des Merisiers

Recent advances in observing and exploiting macroscopic mechanical motion at the quantum limit brought opto-mechanical experiments down to always lower temperatures and smaller sizes, boosting a new research area were (more compatible) low energy photons are employed: microwave opto-mechanics.
Superconducting microwave circuits are in use and bridge opto-mechanics with quantum electronics, which positions the former as a new resource for quantum information processing. But microwave opto-mechanical platforms provide also unique capabilities for testing quantum mechanics at the most basic level: if one thinks about these devices in terms of quantum-limited detectors, the focus is on the thermodynamic baths that continuously interact with the mechanical degrees of freedom. The fundamental questions that are addressed are then quantum thermodynamics, the boundary between classical and quantum mechanics defined by wavefunction collapse, and ultra-low temperature materials properties.
In order to perform such experiments at the frontier of modern physics, we created a unique micro-wave/micro-Kelvin opto-mechanical platform, which is part of the European Microkelvin Platform (https://emplatform.eu/). We demonstrate for the first time the passive cooling of a whole aluminium drumhead mechanical device down to 500 μK [1], reaching a population for the fundamental mode at 15 MHz of 0.3 quanta on average; all higher modes being empty to a very high probability. Using microwave opto-mechanics as a non-invasive detector, we report on the in-equilibrium thermal properties of this lowest frequency mode, in particular the fluctuations of the population number. These reveal a surprisingly complex interplay with the local environment, which is far from being understood.
[1] D. Cattiaux et al., Nat. Comm. Vol. 12, Art. 6182 (2021).

 

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