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Magnetic susceptibility of mixed-valence rare-earth compounds

Journal Article · · Phys. Rev., B, v. 13, no. 7, pp. 2950-2954
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Many rare-earth compounds (e.g., Sm chalcogenides, YbAl$sub 3$) exhibit temperature-independent magnetic susceptibility at low temperatures in their mixed valence phase despite the fact that the ionic configuration in at least one of the valences is such as to lead to a Curie-Weiss behavior. An essential feature of these compounds is that the Fermi level is pinned to the f levels. The effect of this feature is examined in the Anderson model for an isolated impurity and through a strong-coupling variational wave function as well as through a simple Green's-function treatment it is found that the susceptibility is finite at T $Yields$ 0 $sup 0$K and of order $mu$$sup 2$/GAMMA where GAMMA is the virtual width of the f level corrected for correlation effects. For the compounds, a two-band (''f'' and ''d'' with orbital degeneracies neglected) Hubbard-like model leads in the same treatment to a finite susceptibility at T = 0, where now GAMMA is essentially the f-d hybridization energy. Order-of- magnitude agreement with experiments is obtained with a reasonable value of the f- d mixing interaction. The physics of the finite susceptibility at T = 0 is the renormalization of the local moments by the conduction electrons which is strongest when the f levels are at the Fermi level.
Research Organization:
Bell Laboratories, Murray Hill, New Jersey 07974
Sponsoring Organization:
USDOE
NSA Number:
NSA-33-030028
OSTI ID:
4059113
Journal Information:
Phys. Rev., B, v. 13, no. 7, pp. 2950-2954, Journal Name: Phys. Rev., B, v. 13, no. 7, pp. 2950-2954; ISSN PLRBA
Country of Publication:
United States
Language:
English

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Related Subjects

*RARE EARTH ALLOYS-- MAGNETIC SUSCEPTIBILITY
*RARE EARTH COMPOUNDS-- MAGNETIC SUSCEPTIBILITY
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FERMI LEVEL
GREEN FUNCTION
IMPURITIES
INTERMETALLIC COMPOUNDS
N50130* --Metals
Ceramics
& Other Materials--Ceramics & Cermets--Properties
Structure & Phase Studies
TEMPERATURE DEPENDENCE
ULTRALOW TEMPERATURE