Coherent control of population transfer between vibrational states in an optical lattice via two-path quantum interference

Abstract

We demonstrate coherent control of population transfer between vibrational states in an optical lattice by using interference between a one-phonon transition at 2ω and a two-phonon transition at ω. The ω and 2ω transitions are driven by phase- and amplitude-modulation of the lattice laser beams, respectively. By varying the relative phase between these two pathways, we control the branching ratio of transitions to the first excited state and to the higher states. Our best result shows an improvement of the branching ratio by a factor of 3.50.7. Such quantum control techniques may find broad application in suppressing leakage errors in a variety of quantum information architectures.