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>Quantum point contact conductance in normal metal/insulator/meta1/d(x)2-(y)2+id(xy) mixed wave superconductor junctions
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Quantum point contact conductance in normal metal/insulator/meta1/d(x)2-(y)2+id(xy) mixed wave superconductor junctions
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机译:Quantum point contact conductance in normal metal/insulator/meta1/d(x)2-(y)2+id(xy) mixed wave superconductor junctions
The tunneling conductance in a normal metal/insulator/metal/d(x)2-(y)2 + id(xy) mixed wave superconductor (N/I/N/d(x)2-(y)2 + id(xy)) junction is calculated, where the N/I/N region is a quantum wire. It is found in the single-mode case that the magnitude of the tunneling conductance near zero voltage is enhanced due to the Andreev bound state by quasiparticles with perpendicular and horizontal injection, and the zero-bias conductance varies with L (L is the distance from insulating layer to the interface of N/d(x)2-(y)2 + id(xy) mixed wave superconductor). Splitting of the zero-bias conductance peak appears in the quantum point contact tunneling spectra for an IN/I/N/d(x)2-(y)2 + id(xy) junction, and several subgap peaks can split at the same time. On increasing both L and the magnitude ratio of the two components for the d(x)2-(y)2 + id(xy) mixed wave, the subgap resonances exhibit an alternately high and low behavior inside the energy gap. These results are different from those in d-wave and p-wave superconductor junctions.
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