Observation of the Wannier-Stark fan and the fractional ladder in an accelerating optical lattice

We report an experimental study of the Wannier-Stark fan and the fractional Wannier-Stark ladder using laser-cooled sodium atoms in an accelerating on e-dimensional standing wave of light. We prepare the atoms in the lowest mo tional band of the optical lattice and then impose a constant acceleration. A weak oscillatory component is added to the acceleration in order to reso nantly drive interband transitions, and the number of: atoms that remain in the lowest band is measured as a function of the probe frequency. The spec trum is characterized by a ladder of resonances spaced by the atomic Bloch oscillation frequency omega(B). When an additional, strong ac component at frequency Omega is added, a fractional ladder is observed with a spacing re lated to the electric matching ratio Omega/omega(B). [S1050-2947(99)51209-2 ].