Crystal Field Triplets: A New Route to Non-Fermi Liquid Physics

A. H. Castro Neto; A. J. Millis; A. Sengupta; A. Tamaki; A. Ślebarski; C. Itzykson; D. L. Cox; D. L. Cox; Daniel L. Cox; E. Miranda; Gergely Zaránd; I. Affleck; I. Affleck; J. M. M. da Silva; J. von Delft; K. G. Wilson; K. K. Lea; M. C. Aronson; M. C. de Andrade; M. Fabrizio; M. J. Bull; M. Koga; Mikito Koga; O. O. Bernal; O. Sakai; P. Dai; P. Nozières; T.-S. Kim; Y. Shimizu

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Crystal Field Triplets: A New Route to Non-Fermi Liquid Physics

Authors: A. H. Castro Neto
A. J. Millis
A. Sengupta
A. Tamaki
A. Ślebarski
C. Itzykson
D. L. Cox
D. L. Cox
Daniel L. Cox
E. Miranda
Gergely Zaránd
I. Affleck
I. Affleck
J. M. M. da Silva
J. von Delft
K. G. Wilson
K. K. Lea
M. C. Aronson
M. C. de Andrade
M. Fabrizio
M. J. Bull
M. Koga
Mikito Koga
O. O. Bernal
O. Sakai
P. Dai
P. Nozières
T.-S. Kim
Y. Shimizu
Publication date: 19 March 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

A model for crystal field triplet ground states on rare earth or actinide ions with dipolar and quadrupolar couplings to conduction electrons is studied for the first time with renormalization group methods. The quadrupolar coupling leads to a new nontrivial, non-Fermi liquid fixed point, which survives in an intermediate valence Anderson model. The calculated magnetic susceptibility displays one parameter scaling, going as

T^{-\alpha}

(

\alpha \approx 0.4

) at intermediate temperatures, reminiscent of the non-Fermi liquid alloy UCu_{5-x}Pd_x.Comment: 4 pages, 3 figures, REVTe

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