Ferromagnetic phase transition and Bose-Einstein condensation in spinor Bose gases
Abstract
Phase transitions in spinor Bose gases with ferromagnetic (FM) couplings are studied via mean-field theory. We show that an infinitesimal value of the coupling can induce a FM phase transition at a finite temperature always above the critical temperature of Bose-Einstein condensation. This contrasts sharply with the case of Fermi gases, in which the Stoner coupling Is can not lead to a FM phase transition unless it is larger than a threshold value I0. The FM coupling also increases the critical temperatures of both the ferromagnetic transition and the Bose-Einstein condensation.
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