Renormalizations in unconventional superconducting states of Ce1-xYbxCoIn5

Abstract

We have measured the superconducting penetration depth~(T) in the heavy-fermion/intermediate-valent superconducting alloy series~Ce1-xYbxCoIn5 using transverse-field muon spin relaxation, to study the effect of intermediate-valent Yb doping on Fermi-liquid renormalization. From (T) we determine the superfluid density s(T), and find that it decreases continuously with increasing nominal Yb concentration~x, i.e., with increasing intermediate valence. The temperature-dependent renormalization of the "normal" fluid density~N(T) = s(0) - s(T) in both the heavy-fermion and intermediate valence limits is proportional to the temperature-dependent renormalization of the specific heat. This indicates that the temperature-dependent Fermi-liquid Landau parameters of the superconducting quasiparticles entering the two different physical quantities are the same. These results represent an important advance in understanding of both intermediate valence and heavy-fermion phenomena in superconductors.