Elastic properties of the Non-Fermi liquid metal Ce Ru4 Sb12 and the Dense Kondo semiconductor Ce Os4 Sb12
Abstract
We have investigated the elastic properties of the Ce-based filled skutterudite antimonides CeRu4Sb12 and CeOs4Sb12 by means of ultrasonic measurements. CeRu4Sb12 shows a slight increase around 130 K in the temperature dependence of the elastic constants C11, (C11-C12)/2 and C44. No apparent softening toward low temperature due to a quadrupolar response of the 4f-electronic ground state of the Ce ion was observed at low temperatures. In contrast CeOs4Sb12 shows a pronounced elastic softening toward low temperature in the longitudinal C11 as a function of temperature (T) below about 15 K, while a slight elastic softening was observed in the transverse C44 below about 1.5 K. Furthermore, CeOs4Sb12 shows a steep decrease around a phase transition temperature of 0.9 K in both C11 and C44. The elastic softening observed in C11 below about 15 K cannot be explained reasonably only by the crystalline electric field effect. It is most likely to be responsible for the coupling between the elastic strain and the quasiparticle band with a small energy gap in the vicinity of Fermi level. The elastic properties and the 4f ground state of Ce ions in CeRu4Sb12 and CeOs4Sb12 are discussed from the viewpoint of the crystalline electric field effect and the band structure in the vicinity of Fermi level.
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