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Quantum electromechanics with levitated nanoparticles

Lukas Martinetz, Klaus Hornberger, James Millen, M. S. Kim, Benjamin A. Stickler

2020npj Quantum Information32 citationsDOIOpen Access PDF

Abstract

Abstract Preparing and observing quantum states of nanoscale particles is a challenging task with great relevance for quantum technologies and tests of fundamental physics. In contrast to atomic systems with discrete transitions, nanoparticles exhibit a practically continuous absorption spectrum and thus their quantum dynamics cannot be easily manipulated. Here, we demonstrate that charged nanoscale dielectrics can be artificially endowed with a discrete level structure by coherently interfacing their rotational and translational motion with a superconducting qubit. We propose a pulsed scheme for the generation and read-out of motional quantum superpositions and entanglement between several levitated nanoparticles, providing an all-electric platform for networked hybrid quantum devices.

Topics & Concepts

Quantum entanglementQuantumQuantum technologyQuantum sensorQuantum metrologyInterfacingQuantum computerPhysicsQuantum dotQuantum decoherenceNanotechnologyElectromechanicsQuantum simulatorQuantum networkQuantum mechanicsQuantum information scienceOpen quantum systemQuantum imagingQuantum dynamicsQuantum stateQuantum informationNanoscopic scaleNanoelectronicsQuantum nanoscienceNanoengineeringNanoparticleNanomedicineCoherence (philosophical gambling strategy)Quantum channelMaterials scienceQuantum opticsMechanical and Optical ResonatorsStrong Light-Matter InteractionsCold Atom Physics and Bose-Einstein Condensates
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