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Spin-Controlled Quantum Interference of Levitated Nanorotors

Cosimo C. Rusconi, M. Perdriat, G. Hétet, Oriol Romero‐Isart, Benjamin A. Stickler

2022Physical Review Letters27 citationsDOIOpen Access PDF

Abstract

We describe how to prepare an electrically levitated nanodiamond in a superposition of orientations via microwave driving of a single embedded nitrogen-vacancy (NV) center. Suitably aligning the magnetic field with the NV center can serve to reach the regime of ultrastrong coupling between the NV and the diamond rotation, enabling single-spin control of the particle's three-dimensional orientation. We derive the effective spin-oscillator Hamiltonian for small amplitude rotation about the equilibrium configuration and develop a protocol to create and observe quantum superpositions of the particle orientation. We discuss the impact of decoherence and argue that our proposal can be realistically implemented with near-future technology.

Topics & Concepts

NanodiamondNitrogen-vacancy centerSuperposition principlePhysicsQuantum decoherenceHamiltonian (control theory)DiamondSpin (aerodynamics)QuantumQuantum computerQuantum technologySpin engineeringQuantum mechanicsElectronOpen quantum systemSpin polarizationMaterials scienceThermodynamicsMathematicsMathematical optimizationComposite materialMechanical and Optical ResonatorsDiamond and Carbon-based Materials ResearchAdvanced Fiber Laser Technologies
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