Ferromagnetic Properties of ZrZn$_2$

A. A. Abrikosov; A. Carrington; A. Griffiths; A. J. Leggett; A. P. J. van Deursen; C. Pfleiderer; E. A. Yelland; E. P. Wohlfarth; F. M. Grosche; J. M. Yeomans; J. M. Ziman; K. Makoshi; M. J. Steiner; M. Uhlarz; O. Taylor; P. M. Chaikin; R. P. Elliott; S. J. C. Yates; S. M. Hayden; S. Ogawa; S. Ogawa; T. B. Massalski; T. Moriya

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Ferromagnetic Properties of ZrZn $_2$

Authors: A. A. Abrikosov
A. Carrington
A. Griffiths
A. J. Leggett
A. P. J. van Deursen
C. Pfleiderer
E. A. Yelland
E. P. Wohlfarth
F. M. Grosche
J. M. Yeomans
J. M. Ziman
K. Makoshi
M. J. Steiner
M. Uhlarz
O. Taylor
P. M. Chaikin
R. P. Elliott
S. J. C. Yates
S. M. Hayden
S. Ogawa
S. Ogawa
T. B. Massalski
T. Moriya
Publication date: 14 October 2005
Publisher: 'American Physical Society (APS)'
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Abstract

The low Curie temperature (T_C approx 28K) and small ordered moment (M_0 approx 0.17 mu_B f.u.^-1) of ZrZn2 make it one of the few examples of a weak itinerant ferromagnet. We report results of susceptibility, magnetization, resistivity and specific heat measurements made on high-quality single crystals of ZrZn2. From magnetization scaling in the vicinity of T_C (0.001<|T-T_C|/T_C<0.08), we obtain the critical exponents beta=0.52+/-0.05 and delta=3.20+/-0.08, and T_C=27.50+/-0.05K. Low-temperature magnetization measurements show that the easy axis is [111]. Resistivity measurements reveal an anomaly at T_C and a non-Fermi liquid temperature dependence rho(T)=rho_0+AT^n, where n=1.67+/-0.02, for 1<T<14K. The specific heat measurements show a mean-field-like anomaly at T_C. We compare our results to various theoretical models.Comment: submitted to PR

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