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Single-site-resolved imaging of ultracold atoms in a triangular optical lattice

Ryuta Yamamoto, Hideki Ozawa, David C. Nak, Ippei Nakamura, Takeshi Fukuhara

2020New Journal of Physics28 citationsDOIOpen Access PDF

Abstract

Abstract We demonstrate single-site-resolved fluorescence imaging of ultracold 87 Rb atoms in a triangular optical lattice by employing Raman sideband cooling. Combining a Raman transition at the D1 line and a photon scattering through an optical pumping of the D2 line, we obtain images with low background noise. The Bayesian optimisation of 11 experimental parameters for fluorescence imaging with Raman sideband cooling enables us to achieve single-atom detection with a high fidelity of (96.3 ± 1.3)%. Single-atom and single-site resolved detection in a triangular optical lattice paves the way for the direct observation of spin correlations or entanglement in geometrically frustrated systems.

Topics & Concepts

PhysicsOptical latticeUltracold atomRaman scatteringSidebandRaman spectroscopyPhotonHexagonal latticeResonance fluorescenceLattice (music)Quantum entanglementRaman coolingMolecular physicsAtomic physicsOpticsScatteringResolved sideband coolingCondensed matter physicsFluorescenceLaser coolingCoherent anti-Stokes Raman spectroscopySpin (aerodynamics)Cold Atom Physics and Bose-Einstein CondensatesTopological Materials and PhenomenaElectronic and Structural Properties of Oxides
Single-site-resolved imaging of ultracold atoms in a triangular optical lattice | Litcius