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Position Measurement of a Levitated Nanoparticle via Interference with Its Mirror Image

Lorenzo Dania, Katharina Heidegger, Dmitry S. Bykov, G. Cerchiari, G. Araneda, Tracy E. Northup

2022Physical Review Letters22 citationsDOIOpen Access PDF

Abstract

Interferometric methods for detecting the motion of a levitated nanoparticle provide a route to the quantum ground state, but such methods are currently limited by mode mismatch between the reference beam and the dipolar field scattered by the particle. Here we demonstrate a self-interference method to detect the particle's motion that solves this problem. A Paul trap confines a charged dielectric nanoparticle in high vacuum, and a mirror retro-reflects the scattered light. We measure the particle's motion with a sensitivity of 1.7×10^{-12} m/sqrt[Hz], corresponding to a detection efficiency of 2.1%, with a numerical aperture of 0.18. As an application of this method, we cool the particle, via feedback, to temperatures below those achieved in the same setup using a standard position measurement.

Topics & Concepts

PhysicsInterferometryOpticsInterference (communication)Particle (ecology)Position (finance)Charged particleDielectricNanoparticleDipoleComputational physicsOptoelectronicsQuantum mechanicsIonElectrical engineeringGeologyEngineeringChannel (broadcasting)FinanceEconomicsOceanographyMechanical and Optical ResonatorsOrbital Angular Momentum in OpticsForce Microscopy Techniques and Applications
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