Landau Renormalizations of Superfluid density in Heavy Fermion Superconductor CeCoIn5

Abstract

The formation of heavy fermion bands can occur by means of the conversion of a periodic array of local moments into itinerant electrons via the Kondo effect and the huge consequent Fermi-liquid renormalizations. Leggett predicted for liquid 3He that Fermi-liquid renormalizations change in the superconducting state, leading to a temperature dependence of the London penetration depth~ quite different from that in the BCS theory. Using Leggett's theory, as modified for heavy fermions, it is possible to extract from the measured temperature dependence of in high quality samples both Landau parameters F0s and F1s; this has never been accomplished before. A modification of the temperature dependence of the specific heat Cel, related to that of , is also expected. We have carefully determined the magnitude and temperature dependence of in CeCoIn5 by muon spin relaxation rate measurements to obtain F0s = 36 1 and F1s = 1.2 0.3, and find a consistent change in the temperature dependence of electronic specific heat Cel. This, the first determination of F1s with a value~ F0s in a heavy fermion compound, tests the basic assumption of the theory of heavy fermions, that the frequency dependence of the self-energy is much more important than its momentum dependence.