Abstract
Precision electrical resistivity measurements on twelve alloys in the series (1.60≤x≤1.90) reflect the smooth progression from a magnetically ordered dense Kondo system (x≤1.85) to compositions where the conventional single-impurity Kondo effect dominates the exchange interaction, resulting in a ground state which is not magnetically ordered. The variations of the Kondo temperature and the magnetic ordering temperature are determined as a function of Si content and found to agree well with the theoretical Kondo-lattice model.
- Received 24 November 1986
DOI:https://doi.org/10.1103/PhysRevB.35.8523
©1987 American Physical Society