Litcius/Paper detail

Realization of a stroboscopic optical lattice for cold atoms with subwavelength spacing

T-C. Tsui, Yang Wang, Sarthak Subhankar, J. V. Porto, S. L. Rolston

2020Physical review. A/Physical review, A30 citationsDOIOpen Access PDF

Abstract

Optical lattices are typically created via the ac Stark shift and are limited by diffraction to periodicities $\ensuremath{\ge}\ensuremath{\lambda}/2$, where $\ensuremath{\lambda}$ is the wavelength of light used to create them. Lattices with smaller periodicities may be useful for many-body physics with cold atoms and can be generated by stroboscopic application of a phase-shifted lattice with subwavelength features. Here we demonstrate a $\ensuremath{\lambda}/4$-spaced lattice by stroboscopically applying optical Kronig-Penney-like potentials which are generated using spatially dependent dark states. We directly probe the periodicity of the $\ensuremath{\lambda}/4$-spaced lattice by measuring the average probability density of the atoms loaded into the ground band of the lattice. We measure lifetimes of atoms in this lattice and discuss the mechanisms that limit the applicability of this stroboscopic approach.

Topics & Concepts

Optical latticePhysicsLattice (music)LambdaDiffractionWavelengthStroboscopeOpticsCondensed matter physicsAtomic physicsQuantum mechanicsAcousticsSuperfluidityCold Atom Physics and Bose-Einstein CondensatesQuantum Information and CryptographyQuantum optics and atomic interactions