Realization of a fractional period adiabatic superlattice

Abstract

We propose and realize a deeply sub-wavelength optical lattice for ultracold neutral atoms using N resonantly Raman-coupled internal degrees of freedom. Although counter-propagating lasers with wavelength λ provided two-photon Raman coupling, the resultant lattice-period was λ/2N, an N-fold reduction as compared to the conventional λ/2 lattice period. We experimentally demonstrated this lattice built from the three F=1 Zeeman states of a 87 Rb Bose-Einstein condensate, and generated a lattice with a λ/6= 132\ nm period from λ=790 \ nm lasers. Lastly, we show that adding an additional RF coupling field converts this lattice into a superlattice with N wells uniformly spaced within the original λ/2 unit cell.