Tunneling conductance in normal metal - high TC cuprate junctions in the presence of magnetic field
Abstract
The magnetic field responses of the zero-bias conductance peak (ZBCP) in tunneling spectra of high TC cuprate junctions are studied theoretically. Our calculation is based on the lattice Green's function method and takes the realistic electronic structure of the high TC cuprate into account. In marked contrast to previous works, it is shown that the critical magnetic field strength HC exists for the splittings of the ZBCP's to be discernible. HC is almost proportional to the product of the magnitude of pair potential, transmissivity of the junction, and the inverse of the Fermi velocity parallel to the interface (1/vFy). The calculated HC's for the hole-doped superconductors are higher than those for electron-doped ones because of relatively large magnitude of pair potential and the small magnitude of vFy originating from peculiar shape of the Fermi surface.
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