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Phase diagram of the Bose Kondo-Hubbard model

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arxiv 1103.0245 v2 pith:YCPLHX3A submitted 2011-03-01 cond-mat.quant-gas quant-ph

Phase diagram of the Bose Kondo-Hubbard model

classification cond-mat.quant-gas quant-ph
keywords latticetransitionmodelsuperfluidbandsconductionconstraintinsulator
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We study a bosonic version of the Kondo lattice model with an on-site repulsion in the conduction band, implemented with alkali atoms in two bands of an optical lattice. Using both weak and strong-coupling perturbation theory, we find that at unit filling of the conduction bosons the superfluid to Mott insulator transition should be accompanied by a magnetic transition from a ferromagnet (in the superfluid) to a paramagnet (in the Mott insulator). Furthermore, an analytic treatment of Gutzwiller mean-field theory reveals that quantum spin fluctuations induced by the Kondo exchange cause the otherwise continuous superfluid to Mott-insulator phase transition to be first order. We show that lattice separability imposes a serious constraint on proposals to exploit excited bands for quantum simulations, and discuss a way to overcome this constraint in the context of our model by using an experimentally realized non-separable lattice. A method to probe the first-order nature of the transition based on collapses and revivals of the matter-wave field is also discussed.

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