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Magnetic Tuning of the Relativistic BCS-BEC Crossover

The effect of an applied magnetic field in the crossover from Bose-Einstein condensate (BEC) to Bardeen-Cooper-Schrieffer (BCS) pairing regimes is investigated. We use a model of relativistic fermions and bosons inspired by those previously used in the context of cold fermionic atoms and in the magnetic-color-flavor-locking phase of color superconductivity. It turns out that as with cold atom systems, an applied magnetic field can also tune the BCS-BEC crossover in the relativistic case. We find that no matter what the initial state is at B=0, for large enough magnetic fields the system always settles into a pure BCS regime. In contrast to the atomic case, the magnetic field tuning of the crossover in the relativistic system is not connected to a Feshbach resonance, but to the relative numbers of Landau levels with either BEC or BCS type of dispersion relations that are occupied at each magnetic field strength.

preprint2011arXivOpen access
Jin-cheng WangVivian de la InceraEfrain J. FerrerQun Wang
cond-mat.supr-conhep-phastro-ph.HEnucl-thastro-ph.SR
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Jin-cheng WangVivian de la InceraEfrain J. FerrerQun Wang

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