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Muon Spin Rotation Study of the Intercalated Graphite Superconductor CaC6 at Low Temperatures

Murányi, F. ; Bendele, M. ; Khasanov, R. ; Guguchia, Z. ; Shengelaya, A. ; Baines, C. ; Keller, H.

In: Journal of Superconductivity and Novel Magnetism, 2012, vol. 25, no. 2, p. 159-163

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    Titre
    • Muon Spin Rotation Study of the Intercalated Graphite Superconductor CaC6 at Low Temperatures
    Auteur
    • Murányi, F.. Physik-Institut der Universität Zürich, Winterthurerstrasse 190, 8057, Zürich, Switzerland
    • Bendele, M.. Physik-Institut der Universität Zürich, Winterthurerstrasse 190, 8057, Zürich, Switzerland
    • Khasanov, R.. Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, 5232, Villigen PSI, Switzerland
    • Guguchia, Z.. Physik-Institut der Universität Zürich, Winterthurerstrasse 190, 8057, Zürich, Switzerland
    • Shengelaya, A.. Department of Physics, Tbilisi State University, Chavchavadze 3, 0128, Tbilisi, Georgia
    • Baines, C.. Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, 5232, Villigen PSI, Switzerland
    • Keller, H.. Physik-Institut der Universität Zürich, Winterthurerstrasse 190, 8057, Zürich, Switzerland
    Type de document
    • Postprint
    Langue
    • Anglais
    Publié dans
    • Journal of Superconductivity and Novel Magnetism, 2012, vol. 25, no. 2, p. 159-163. Springer US; http://www.springer-ny.com
    Autre version électronique
    Identifiant OAI-PMH
    • oai:doc.rero.ch:313256
    Summary
    Muon spin rotation (μSR) experiments were performed on the intercalated graphite CaC6 in the normal and superconducting state down to 20mK. In addition, AC magnetization measurements were carried out resulting in an anisotropic upper critical field $H_{\text{c2}}$ , from which the coherence lengths ξ ab (0)=36.3(1.5)nm and ξ c (0)=4.3(7)nm were estimated. The anisotropy parameter $\gamma _{H}=H_{\text{c2}}^{ab}/H_{\text{c2}}^{c}$ increases monotonically with decreasing temperature. Asingle isotropic s-wave description of superconductivity cannot account for this behavior. From magnetic field dependent μSR experiments, the absolute value of the in-plane magnetic penetration depth λ ab (0)=78(3)nm was determined. The temperature dependence of the superfluid density ρ s (T) is slightly better described by a two-gap than a single-gap model