Muon-spin rotation study of the in-plane magnetic penetration depth of FeSe_0.85: evidence for nodeless superconductivity

A. Amato; A. Shengelaya; C. Baines; E. Pomjakushina; H.-H. Klauss; H. Luetkens; J. Karpinski; K. Conder; N.D. Zhigadlo; R. Khasanov

arxiv: 0810.1716 · v1 · submitted 2008-10-09 · ❄️ cond-mat.supr-con

Muon-spin rotation study of the in-plane magnetic penetration depth of FeSe₀.85: evidence for nodeless superconductivity

R. Khasanov , K. Conder , E. Pomjakushina , A. Amato , C. Baines , Z. Bukowski , J. Karpinski , S. Katrych

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H.-H. Klauss H. Luetkens A. Shengelaya N.D. Zhigadlo

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classification ❄️ cond-mat.supr-con

keywords fesedepthin-planelambdamagneticmuon-spinnodespenetration

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The in-plane magnetic penetration depth \lambda_{ab} of the iron selenide superconductor with the nominal composition FeSe_0.85 was studied by means of muon-spin rotation. The measurements of \lambda_{ab}^{-2}(T) are inconsistent with the presence of nodes in the gap as well as with a simple isotropic s-wave type of the order parameter, but can be equally well described within a two-gap (s+s) and an anisotropic s-wave gap picture. This implies that the superconducting energy gap in FeSe_0.85 contains no nodes.

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Muon-spin rotation study of the in-plane magnetic penetration depth of FeSe₀.85: evidence for nodeless superconductivity

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