Finite-temperature phase transitions in =2 bilayer quantum Hall systems

Abstract

In this paper, the influence of an in-plane magnetic field B on the finite-temperature phase transitions in nu=2 bilayer quantum Hall systems are examined. It is found that there can exist two types of finite-temperature phase transitions. The first is the Kosterlitz-Thouless (KT) transitions, which can have an unusual non-monotonic dependence on B; the second type originates from the crossing of energy levels and always increases with B. Based on these results, we point out that the threshold temperature observed in the inelastic light scattering experiments cannot be the KT transition temperature, because the latter shows a totally different B-dependence as compared with the experimental observation. Instead, it should be the level-crossing temperature, which we found agrees with the B-dependence observed. Moreover, combining the knowledge of these two transition temperatures, a complete finite-temperature phase diagram is presented.

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