Bulk superconductivity at 84 K in the strongly overdoped regime of cuprates

Bulk superconductivity at 84 K in the strongly overdoped regime of cuprates

By means of magnetization, specific heat, and muon-spin relaxation measurements, we investigate newly synthesized high-pressure oxidized Cu0.75Mo0.25Sr2YCu2O7.54, in which overdoping is achieved up to p∼0.46 hole/Cu, well beyond the Tc−p superconducting dome of cuprates, where Fermi-liquid behavior...

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Veröffentlicht in:Physical review. B 2016-11, Vol.94 (18), Article 180509
Hauptverfasser: Gauzzi, A., Klein, Y., Nisula, M., Karppinen, M., Biswas, P. K., Saadaoui, H., Morenzoni, E., Manuel, P., Khalyavin, D., Marezio, M., Geballe, T. H.
Format: Artikel
Sprache:eng
Schlagworte:
Bulk density
Cuprates
Fluids
Muon spin relaxation
Physics
Specific heat
Superconductivity
Superfluidity
YBCO superconductors
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Zusammenfassung:By means of magnetization, specific heat, and muon-spin relaxation measurements, we investigate newly synthesized high-pressure oxidized Cu0.75Mo0.25Sr2YCu2O7.54, in which overdoping is achieved up to p∼0.46 hole/Cu, well beyond the Tc−p superconducting dome of cuprates, where Fermi-liquid behavior is expected. Surprisingly, we find bulk superconductivity with Tc=84 K and superfluid density similar to those of optimally doped YBa2Cu3O7−δ. On the other hand, specific heat data display a large electronic contribution at low temperature, comparable to that of nonsuperconducting overdoped La2−xSrxCuO4. These results point at an unusual high-Tc phase with a large fraction of unpaired holes. Further experiments may assess the Fermi-liquid properties of the present phase, which would put into question the paradigm that the high Tc of cuprates originates from a non-Fermi-liquid ground state.
ISSN:2469-9950
2469-9969
DOI:10.1103/PhysRevB.94.180509