Low-field remanent magnetization in Rb2FeCl5.H2O and in its site-diluted solid solutions Rb2Fe1-xInxCl5.H2O (x=0.04, 0.08, 0.15, and 0.35)

Low-field remanent magnetization in Rb2FeCl5.H2O and in its site-diluted solid solutions Rb2Fe1-xInxCl5.H2O (x=0.04, 0.08, 0.15, and 0.35)

Author Palacio, F. Google Scholar
Gabas, M. Google Scholar
Campo, J. Google Scholar
Becerra, C. C. Google Scholar
Paduan, A. Google Scholar
Barbeta, V. B. Google Scholar
Institution Universidade Federal de São Paulo (UNIFESP)
Abstract The observation of remanent magnetization M-r in single crystals of the easy-axis low-anisotropy antiferromagnet Rb2FeCl5 . H2O and in its site-diluted solid solutions Rb2Fe1-xInxCl5 . H2O (x=0.04, 0.08, 0.15, and 0.35) is reported. the anomaly is observed when the easy axis of the antiferromagnetic alignment in the crystal is oriented parallel to the applied magnetic field. the values of M, depend on the field in which the sample has been cooled and saturates at values as low as 1 Oe. the observed behavior is compared with anomalies previously reported for Mn1-xZnxF2 and K2Fe1-xInxCl5 . H2O. the saturation values of M-r for the Rb2Fe1-xInxCl5 . H2O solid solutions are found to be up to two and five orders of magnitude higher than for, respectively, the K2Fe1-xInxCl5 . H2O and Mn1-xZnxF2 ones. for most of the Rb-based samples as well as for all of the other ones the values of M-r can be scaled to collapse into a single universal curve. Such a curve is independent of the applied magnetic filed, of the value of x, and of the compound. the scaling of some samples of the Rb-based system, however, deviates from the universal curve. These samples exhibit M, values that are higher by one order of magnitude than those that follow the scaling and yet possess the same concentration of nonmagnetic ions. An explanation based on the pinning of antiferromagnetic domain walls by nonmagnetic impurities and lattice defects is given.
Language English
Date 1997-08-01
Published in Physical Review B. College Pk: American Physical Soc, v. 56, n. 6, p. 3196-3203, 1997.
ISSN 0163-1829 (Sherpa/Romeo, impact factor)
Publisher American Physical Soc
Extent 3196-3203
Origin http://dx.doi.org/10.1103/PhysRevB.56.3196
Access rights Closed access
Type Article
Web of Science ID WOS:A1997XR29000047
URI http://repositorio.unifesp.br/handle/11600/25775

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