Mechanism of dx2-y2-wave superconductivity based on doped hole induced spin texture in high Tc cuprates
Abstract
A mechanism of dx2-y2-wave superconductivity is proposed for the high-Tc cuprates based on a spin texture with non-zero topological density induced by doped holes through Zhang-Rice singlet formation. The pairing interaction arises from the magnetic Lorentz force like interaction between the holes and the spin textures. The stability of the pairing state against the vortex-vortex interaction and the Coulomb repulsion is examined. The mechanism suggests appearance of a p-wave pairing component by introducing anisotropy in the CuO2 plane.
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