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Influence of the spatially inhomogeneous gap distribution on the quasiparticle current in<i>c</i>-axis junctions involving<i>d</i>-wave superconductors with charge density waves
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Description
The quasiparticle tunnel current J(V) between the superconducting ab-planes along the c-axis and the corresponding conductance [Formula: see text] were calculated for symmetric junctions composed of disordered d-wave layered superconductors partially gapped by charge density waves (CDWs). Here, V is the voltage. Both the checkerboard and unidirectional CDWs were considered. It was shown that the spatial spread of the CDW-pairing strength substantially smears the peculiarities of G(V) appropriate to uniform superconductors. The resulting curves G(V) become very similar to those observed for a number of cuprates in intrinsic junctions, e.g. mesas. In particular, the influence of CDWs may explain the peak-dip-hump structures frequently found for high-T c oxides.
Journal
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- Journal of Physics: Condensed Matter
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Journal of Physics: Condensed Matter 28 445701-, 2016-09-08
IOP Publishing
