Simulations of experimental conductance spectra of $YBa_2Cu_3O_y$ junctions: Role of a long d-wave decay length and a small $is$ component in the pair potential near the interface
arXiv:cond-mat/0306030 · doi:10.1103/PhysRevB.68.224519
Abstract
Extended BTK-type theoretical methods were used for the calculation of conductance spectra of NS and NIS junctions, where S is either a d-wave or a d+is-wave superconductor, and N is a normal metal. We found that the length scale over which the bulk d-wave order parameter varies spatially near the interface (the "decay length") has a significant effect on the main features of the conductance spectra. A relatively large decay length of the order of 10-20$ξ_{0}$ together with a small $is$-wave component, can explain many peculiarities observed in the experimental conductance spectra of various junctions. We attribute the long decay length to either a reversed proximity effect in the high transparency junctions, or to the presence of a low $T_c\leq 10$K s-wave component with a much longer $ξ_{0s}\approx 10ξ_{0d}$ near the interface.
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