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Paper detail

Fluctuation-induced and symmetry-prohibited metastabilities in spinor Bose-Einstein condensates

Spinor Bose-Einstein condensates provide a unique example in which the Bogoliubov theory fails to describe the metastability associated with first-order quantum phase transitions. This problem is resolved by developing the spinor Beliaev theory which takes account of quantum fluctuations of the condensate. It is these fluctuations that generate terms of higher than the fourth order in the order-parameter field which are needed for the first-order phase transitions. Besides the conventional first-order phase transitions which are accompanied by metastable states, we find a class of first-order phase transitions which are not accompanied by metastable states. The absence of metastability in these phase transitions holds to all orders of approximation since the metastability is prohibited by the symmetry of the Hamiltonian at the phase boundary. Finally, the possibility of macroscopic quantum tunneling from a metastable state to the ground state is discussed.

preprint2013arXivOpen access
Nguyen Thanh PhucYuki KawaguchiMasahito Ueda
cond-mat.quant-gas
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Nguyen Thanh PhucYuki KawaguchiMasahito Ueda

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