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Spatially varying interactions induced in atomic gases by optical Feshbach resonance

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arxiv 1101.2217 v3 pith:T7YFFK56 submitted 2011-01-11 cond-mat.quant-gas cond-mat.supr-con

Spatially varying interactions induced in atomic gases by optical Feshbach resonance

classification cond-mat.quant-gas cond-mat.supr-con
keywords spatiallystructuressuperfluidvaryingatomicbosonsenclavefermions
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Optical Feshbach resonance is capable of inducing spatially varying interactions in ultra-cold atoms. Its applications to pancake-shaped clouds of bosons and fermions enable one to study several fresh phenomena. We examine possibilities of inducing counter-intuitive structures such as creating a superfluid enclave inside a Mott insulator for bosons and a normal-gas core enclosed by a superfluid shell for fermions. We discuss feasible experimental setups and signatures of those interesting structures, which can be very different from common structures observed in experiments so far. While a superfluid enclave in a Mott insulator can be useful for constructing atomic devices for atomtronics, superconducting islands observed in scanning-tunneling microscopy of heavily underdoped high-temperature superconductors may be studied with cold Fermi gases with spatially varying attractions.

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