Testing the Fully Gapped s-Wave Superconductor CeCu2Si2 by Impurity-Induced Intra-gap States View Full Text


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Article Info

DATE

2019-03-16

AUTHORS

Dongdong Wang, Bin Liu

ABSTRACT

The fully gapped s-wave superconducting state, such as nodeless s±-wave and s++-wave, was proposed by recent experiments in the multiband superconductor CeCu2Si2. In this paper, we study the problem within an effective two hybridization bands model obtained from the first principle calculations. Our results based on T-matrix approximation reveal that for s++-wave pairing, there are no intra-gap resonance states induced by a nonmagnetic impurity irrespective of the inter-band impurity scattering strength. However, in the case of sign-changing s±-wave pairing, we find two intra-gap resonance states appearing at positive and negative energies around the Fermi energy with introducing inter-band impurity scattering. These features can be readily verified by scanning tunneling microscopy/spectroscopy and are proposed to identify the sign-changing fully gapped superconducting state in CeCu2Si2 at ambient pressure. More... »

PAGES

1-8

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http://scigraph.springernature.com/pub.10.1007/s10909-019-02175-w

DOI

http://dx.doi.org/10.1007/s10909-019-02175-w

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https://app.dimensions.ai/details/publication/pub.1112829745


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45 schema:description The fully gapped s-wave superconducting state, such as nodeless s±-wave and s++-wave, was proposed by recent experiments in the multiband superconductor CeCu2Si2. In this paper, we study the problem within an effective two hybridization bands model obtained from the first principle calculations. Our results based on T-matrix approximation reveal that for s++-wave pairing, there are no intra-gap resonance states induced by a nonmagnetic impurity irrespective of the inter-band impurity scattering strength. However, in the case of sign-changing s±-wave pairing, we find two intra-gap resonance states appearing at positive and negative energies around the Fermi energy with introducing inter-band impurity scattering. These features can be readily verified by scanning tunneling microscopy/spectroscopy and are proposed to identify the sign-changing fully gapped superconducting state in CeCu2Si2 at ambient pressure.
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