Non-Locality and Strong Coupling in the Heavy Fermion Superconductor CeCoIn5: A Penetration Depth Study

Abstract

We report measurements of the magnetic penetration depth λ in single crystals of CeCoIn5 down to 0.14 K using a tunnel-diode based, self-inductive technique at 28 MHz. While the in-plane penetration depth tends to follow a power law, λ// T3/2, the data are better described as a crossover between linear ( T T ) and quadratic ( T T ) behavior, with T the crossover temperature in the strong-coupling limit. The c-axis penetration depth λ is linear in T, providing evidence that CeCoIn5 is a d-wave superconductor with line nodes along the c-axis. The different temperature dependences of λ// and λ rule out impurity effects as the source of T .

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