Interplay of disorder and spin fluctuations in the resistivity near a
  quantum critical point

A. J. Millis; A. Rosch; A. Rosch; A. Schröder; H. v. Löhneysen; H. v. Löhneysen; J. A. Hertz; J. Ziman; N. D. Mathur; O. Stockert; P. Gegenwart; R. Hlubina; S. Kambe; S. R. Julian; T. Moriya

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Interplay of disorder and spin fluctuations in the resistivity near a quantum critical point

Authors: A. J. Millis
A. Rosch
A. Rosch
A. Schröder
H. v. Löhneysen
H. v. Löhneysen
J. A. Hertz
J. Ziman
N. D. Mathur
O. Stockert
P. Gegenwart
R. Hlubina
S. Kambe
S. R. Julian
T. Moriya
Publication date: 14 May 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The resistivity in metals near an antiferromagnetic quantum critical point (QCP) is strongly affected by small amounts of disorder. In a quasi-classical treatment, we show that an interplay of strongly anisotropic scattering due to spin fluctuations and isotropic impurity scattering leads to a large regime where the resistivity varies as T^alpha, with an anomalous exponent, alpha, 1 <= alpha <= 1.5, depending on the amount of disorder. I argue that this mechanism explains in some detail the anomalous temperature dependence of the resistivity observed in CePd_2Si_2, CeNi_2Ge_2 and CeIn_3 near the QCP.Comment: 4 pages, 4 eps figures, published version, only small change

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