Novel Phase Transition Near the Quantum Critical Point in the Filled-Skutterudite Compound CeOs4Sb12: an Sb-NQR Study
Abstract
We report on a novel phase transition at T = 0.9 K in the Ce-based filled-skutterudite compound CeOs4Sb12 via measurements of the nuclear-spin lattice relaxation rate 1/T1 and nuclear quadrupole resonance (NQR) spectrum of Sb nuclei. The temperature (T) dependence of 1/T1 behaves as if approaching closely an antiferromagnetic (AFM) quantum critical point (QCP), following the relation 1/T1 T/(T-T N)1/2 with T N = 0.06 K in the range of T=1.3-25 K. The onset of either the spin-density-wave (SDW) or charge-density-wave (CDW) order at T 0 = 0.9 K, that is, of the first order, is evidenced by a broadening of the NQR spectrum and a marked reduction in 1/T1 just below T 0. The f-electron-derived correlated band realized in CeOs4Sb12 is demonstrated to give rise to the novel phase transition on the verge of AFM QCP.
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