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Stabilization of the p-wave superfluid state in an optical lattice

It is hard to stabilize the p-wave superfluid state of cold atomic gas in free space due to inelastic collisional losses. We consider the p-wave Feshbach resonance in an optical lattice, and show that it is possible to have a stable p-wave superfluid state where the multi-atom collisional loss is suppressed through the quantum Zeno effect. We derive the effective Hamiltonian for this system, and calculate its phase diagram in a one-dimensional optical lattice. The results show rich phase transitions between the p-wave superfluid state and different types of insulator states induced either by interaction or by dissipation.

preprint2010arXivOpen access
Y. -J. HanY. -H. ChanW. YiA. J. DaleyS. DiehlP. ZollerL. -M. Duan
cond-mat.str-elcond-mat.quant-gas
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Y. -J. HanY. -H. ChanW. YiA. J. DaleyS. DiehlP. ZollerL. -M. Duan

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