Magnetic field -induced phase transition in a dx2-y2-wave superconductor at low temperatures
Abstract
We consider, within BCS weak coupling theory, the instability of a dx2-y2-wave superconductor to a state of mixed symmetry d+iq, q=dxy,s. In zero magnetic field we show that there is a large and physically reasonable range of interaction strengths for which a pure dx2-y2 state is stable down to T=0. In this case a magnetic field, assumed to couple to quasiparticles via their Doppler shifts in the vortex superflow field, is shown to induce a phase transition at T=Tc* H. Below Tc*, the density of states remains gapless but its field dependence is substantially supressed. The theory explains many features of recent striking thermal conductivity measurements on BSCCO by Krishana et al.
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