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Q: Fachverband Quantenoptik und Photonik

Q 36: Optomechanics II

Q 36.1: Vortrag

Mittwoch, 16. März 2022, 14:00–14:15, Q-H13

Stationary entanglement of feedback-cooled nanoparticles — •Henning Rudolph, Klaus Hornberger, and Benjamin Stickler — Faculty of Physics, University of Duisburg-Essen, Germany

The motion of levitated nanoparticles has recently been cooled into the quantum groundstate by electric feedback [1]. In this talk we demonstrate how two interacting nanoparticles, co-levitated in adjacent tweezer traps, exhibit stationary entanglement if the individual particles can be detected and feedback cooled. We find that the stationary two-particle state can be entangled if the detection efficiency of the feedback loop exceeds the ratio of the mechanical normal mode frequencies. As an important experimental constraint, we show that the degree of entanglement decreases with increasing bandwidth of the signal-to-feedback filter.

[1] L. Magrini, P. Rosenzweig, C. Bach, A. Deutschmann-Olek, S. G. Hofer, S. Hong, N. Kiesel, A. Kugi, M. Aspelmeyer, Real-time optimal quantum control of mechanical motion at room temperature. Nature 595, 373-377 (2021).