Two phase transitions in (dx2-y2+is)-wave superconductors
Abstract
We study numerically the temperature dependencies of specific heat, susceptibility, penetration depth, and thermal conductivity of a coupled (dx2-y2+is)-wave Bardeen-Cooper-Schreiffer superconductor in the presence of a weak s-wave component (1) on square lattice and (2) on a lattice with orthorhombic distorsion. As the temperature is lowered past the critical temperature Tc, a less ordered superconducting phase is created in dx2-y2 wave, which changes to a more ordered phase in (dx2-y2+is) wave at Tc1. This manifests in two second-order phase transitions. The two phase transitions are identified by two jumps in specific heat at Tc and Tc1. The temperature dependencies of the superconducting observables exhibit a change from power-law to exponential behavior as temperature is lowered below Tc1 and confirm the new phase transition.
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