Theory for Non-Fermi Liquid Temperature Dependence in Resistivity of CexLa1-x Cu5.62 Au0.38 (x=0.02-0.10) on the Local Quantum Valence Criticality of Ce Impurities

Abstract

It was reported by Shiino et al in J. Phys. Soc. Jpn. 86, 123705 (2017) that CexLa1-x Cu5.62 Au0.38 (x=0.02-0.10) exhibits a new type of quantum criticality in both magnetic and thermal properties, which is the same as that observed in a series of materials exhibiting quantum critical valence fluctuations (QCVF), such as β-YbAlB4, Yb15Al34Au51, and so on. However, the temperature (T) dependence in the resistivity rho(T) for T<0.5K is quite anomalous, i.e., (T) (const.-Tn) with n 0.75 at x=0.05. We find that this anomalous exponent is given by n=2(1-ζ), with zeta being the weakly temperature dependent (0.5 ζ 0.7) critical exponent for the QCVF.The observed critical exponent n 0.75 at x=0.05 is reproduced by choosing ζ 0.63 which is consistent with the divergent behavior observed in the uniform magnetic susceptibility T-ζ with ζ 0.67 at x=0.02.