The Coherence of a Dipolar Condensate in a Harmonic Potential Superimposed to a Deep Lattice**Supported by the National Natural Science Foundation of China under Grant Nos 11274255 and 11305132, the Specialized Research Fund for the Doctoral Program of Higher Education of China under Grand No 20136203110001, the Natural Science Foundation of Gansu Province under Grant No 2011GS04358, and the Creation

Abstract

Within the mean-field model, the coherent matter waves of a dipolar condensate in a harmonic potential superimposed to a deep lattice are investigated by the variational principle. It is shown that, in a harmonic potential superimposed to a deep lattice, it is possible to control the decoherence of Bloch oscillations due to the fact that the on-site and the inter-site dipolar interactions can not only damp out Bloch oscillations but also maintain long-lived Bloch oscillations under the certain condition. In particular, long-lived Bloch oscillations of dipolar condensate can be realized when the dipolar interaction, the contact interaction, the frequency of the harmonic potential and initial width of the wave packet satisfy an analytical condition. Thus the decoherence of Bloch oscillation can be controlled by adjusting the dipolar interaction, the contact interaction, the frequency of harmonic potential and the initial width of the wave packet.