Dressed molecules in an optical lattice
Publication date
2006
Authors
Gubbels, K.B.
Dickerscheid, D.B.M.
Stoof, H.T.C.
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Document Type
Preprint
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Abstract
We present the theory of an atomic gas in an optical lattice near a
Feshbach resonance. We derive from first principles a generalized Hubbard model,
that incorporates all the relevant two-body physics exactly, except for the background
atom-atom scattering. For most atoms the background interactions are negligible, but
this is not true for 6Li, which has an exceptionally large background scattering length
near the experimentally relevant Feshbach resonance at 834 G. Therefore, we show how
to include background atom-atom scattering by solving the on-site two-body Feshbach
problem exactly. We apply the obtained solution to 6Li and find that the background
interactions indeed have a significant effect in this case.