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Levitated Optomechanics with Meta-Atoms

Sergei Lepeshov, Nadine Meyer, Patrick Maurer, Oriol Romero‐Isart, Romain Quidant

2023Physical Review Letters25 citationsDOI

Abstract

We propose to introduce additional control in levitated optomechanics by trapping a meta-atom, i.e., a subwavelength and high-permittivity dielectric particle supporting Mie resonances. In particular, we theoretically demonstrate that optical levitation and center-of-mass ground-state cooling of silicon nanoparticles in vacuum is not only experimentally feasible but it offers enhanced performance over widely used silica particles in terms of trap frequency, trap depth, and optomechanical coupling rates. Moreover, we show that, by adjusting the detuning of the trapping laser with respect to the particle's resonance, the sign of the polarizability becomes negative, enabling levitation in the minimum of laser intensity, e.g., at the nodes of a standing wave. The latter opens the door to trapping nanoparticles in the optical near-field combining red and blue-detuned frequencies, in analogy to two-level atoms, which is of interest for generating strong coupling to photonic nanostructures and short-distance force sensing.

Topics & Concepts

OptomechanicsLevitationOptical forcePhysicsTrappingResonance (particle physics)PhotonicsOptical tweezersPolarizabilityAtomic physicsLaserOptoelectronicsOpticsMagnetQuantum mechanicsResonatorEcologyMoleculeBiologyMechanical and Optical ResonatorsPhotonic and Optical DevicesOrbital Angular Momentum in Optics
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