Effects of Rattling Phonons on the Quasiparticle Excitation and Dynamics in the Superconducting β-Pyrochlore KOs2O6

Abstract

Microwave penetration depth λ and surface resistance at 27 GHz are measured in high quality crystals of KOs2O6. Firm evidence for fully-gapped superconductivity is provided from λ(T). Below the second transition at T p 8 K, the superfluid density shows a step-like change with a suppression of effective critical temperature T c. Concurrently, the extracted quasiparticle scattering time shows a steep enhancement, indicating a strong coupling between the anomalous rattling motion of K ions and quasiparticles. The results imply that the rattling phonons help to enhance superconductivity, and that K sites freeze to an ordered state with long quasiparticle mean free path below T p.