ac susceptibility ofnear the percolation limit
- 1 November 1982
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 26 (9) , 5241-5244
- https://doi.org/10.1103/physrevb.26.5241
Abstract
A detailed study of the ac susceptibility of a Au-15 at.% Fe sample in both a quenched and aged state is reported as a function of dc biasing field over a wide range of temperature. Both the quenched and aged samples exhibit considerable structure in their susceptibility-versus-temperature curves which might be taken as indicating various "transitions." However, unlike the situation reported recently for a variety of systems, we find that the predictions of scaling behavior are not followed at either transition; instead these data exhibit features which might be qualitatively interpreted in terms of a recently proposed triple-transition process in this system. The quantitative aspects of this latter model have yet to be worked out and tested, and so any definitive assignments still cannot be made.Keywords
This publication has 18 references indexed in Scilit:
- Magnetic phases of amorphous transition metal-metalloid alloysJournal of Magnetism and Magnetic Materials, 1981
- Spin-glass/ferromagnetic transitions and multicritical points in amorphous transition metal alloys (invited)Journal of Applied Physics, 1981
- AC susceptibility and resistivity of the ferromagnetic phase of PdMnJournal of Physics F: Metal Physics, 1981
- Critical behavior of an amorphous ferromagnetPhysical Review B, 1981
- Spin-Glass-Ferromagnetic Critical Line in Amorphous Fe-Mn AlloysPhysical Review Letters, 1980
- Infinite-ranged models of spin-glassesPhysical Review B, 1978
- Spin glass freezing above the ferromagnetic percolation limit in AuFe alloysJournal of Physics F: Metal Physics, 1978
- The role of finite magnetic clusters in Au-Fe alloys near the percolation concentrationPhilosophical Magazine Part B, 1978
- ac susceptibility of the ferromagnetic phase of thesystemPhysical Review B, 1978
- Solvable Model of a Spin-GlassPhysical Review Letters, 1975