Multiband superconductivity in the Chevrel phases SnMo6S8 and PbMo6S8

Multiband superconductivity in the Chevrel phases SnMo6S8 and PbMo6S8

Sub-Kelvin scanning tunneling spectroscopy in the Chevrel phases SnMo6S8 and PbMo6S8 reveals two distinct superconducting gaps with Δ1=3 meV, Δ2∼1.0 meV and Δ1=3.1 meV, Δ2∼1.4 meV, respectively. The gap distribution is strongly anisotropic, with Δ2 predominantly seen when scanning across unit-cell s...

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Veröffentlicht in:Physical review letters 2011-01, Vol.106 (1), p.017003-017003
Hauptverfasser: Petrović, A P, Lortz, R, Santi, G, Berthod, C, Dubois, C, Decroux, M, Demuer, A, Antunes, A B, Paré, A, Salloum, D, Gougeon, P, Potel, M, Fischer, O
Format: Artikel
Sprache:eng
Schlagworte:
Chemical Sciences
Material chemistry
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Zusammenfassung:Sub-Kelvin scanning tunneling spectroscopy in the Chevrel phases SnMo6S8 and PbMo6S8 reveals two distinct superconducting gaps with Δ1=3 meV, Δ2∼1.0 meV and Δ1=3.1 meV, Δ2∼1.4 meV, respectively. The gap distribution is strongly anisotropic, with Δ2 predominantly seen when scanning across unit-cell steps on the (001) sample surface. The spectra are well fitted by an anisotropic two-band BCS s-wave gap function. Our spectroscopic data are confirmed by electronic heat capacity measurements, which also provide evidence for a twin-gap scenario.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.106.017003