Characterization of the valence transition in ${Yb}_{x}$ ${In}_{1 - x}$ ${Cu}_{2}$ and anomalous ${}^{115}{In}$ Knight-shift behavior

1 February 1987

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 35 (4) , 2035-2037
https://doi.org/10.1103/physrevb.35.2035

Abstract

{}^{115}{In}

nuclear-magnetic-resonance Knight shift studies in

{Yb}_{x}

{In}_{1 - x}

{Cu}_{2}

microscopically confirm the existence of an anomalous valence transition of Yb ions for some values of x. The rate of variation, as well as the overall variation of the Knight shifts is the largest ever observed in any Yb system. The Knight shifts do not track the susceptibility at low temperatures, the possible implications of which are discussed. Specific-heat results prove the intermediate-valence character of Yb ions in the ground state of these compounds.

Keywords

This publication has 5 references indexed in Scilit:

First-order valence phase transition in cubic ${Yb}_{x}$ ${In}_{1 - x}$ ${Cu}_{2}$
Physical Review B, 1986
Origin of Knight-shift anomaly in intermediate-valence compounds
Physical Review B, 1985
Theoretical and experimental progress in intermediate valence systems (invited)
Journal of Applied Physics, 1982
Valence fluctuation phenomena
Reports on Progress in Physics, 1981
Valence Fluctuation and the Temperature Dependence of Copper Nuclear Quadrupole Interaction in Eu ${Cu}_{2}$ ${Si}_{2}$ and Yb ${Cu}_{2}$ ${Si}_{2}$
Physical Review Letters, 1979

Characterization of the valence transition inYbxIn1−xCu2and anomalousIn115Knight-shift behavior

Abstract

Keywords

Characterization of the valence transition in ${Yb}_{x}$ ${In}_{1 - x}$ ${Cu}_{2}$ and anomalous ${}^{115}{In}$ Knight-shift behavior