Lattice Disorder and Size-Induced Kondo Behavior inCeAl2andCePt2+x | Zendy

Sang-Wook Han | Zendy; Corwin H. Booth | Zendy; E. D. Bauer | Zendy; Patrick Huang | Zendy; Y. Y. Chen | Zendy; J. M. Lawrence | Zendy

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Lattice Disorder and Size-Induced Kondo Behavior inCeAl2andCePt2+x

Author(s) -

Sang-Wook Han,

Corwin H. Booth,

E. D. Bauer,

Patrick Huang,

Y. Y. Chen,

J. M. Lawrence

Publication year - 2006

Publication title -

physical review letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.688

H-Index - 673

eISSN - 1079-7114

pISSN - 0031-9007

DOI - 10.1103/physrevlett.97.097204

Subject(s) - computer science , physics

When the particle size of CeAl{sub 2} and CePt{sub 2+x} samples is reduced to the nanometer scale, antiferromagnetism is suppressed and Kondo behavior dominates. We find that the Kondo temperature T{sub K} can either decrease (CeAl{sub 2}) or increase (CePt{sub 2+x}) in the nanoparticles relative to the bulk. Extended x-ray absorption fine-structure data show that the Ce-Al and Ce-Pt environments are significantly distorted in the nanoparticles. While such distortions should strongly affect magnetic and electronic properties, we find they cannot explain the observed changes in T{sub K}. Changes in the conduction density of states or other parameters must, therefore, play a significant role

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