Field induced dx2-y2+idxy state and marginal stability of high-Tc superconductors
Abstract
It is shown that the complex dxy component is generated in d-wave superconductor in the magnetic field. As one enters superconducting state at finite field the normal to superconducting transition occurs into bulk dx2-y2+i dxy state . The driving force for the transition is the linear coupling between magnetic field and non zero magnetization of the dx2-y2+i dxy condensate. The external magnetic field violates parity and time reversal symmetries and the nodal quasiparticle states respond by generating the idxy component of the order parameter, with the magnitude estimated to be on the order of few Kelvin. Parity (P) and time reversal (T) symmetries are violated in this state.
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