Critical properties of the paramagnetic-to-ferromagnetic transition in nanocrystalline Gd diluted with Fe

P. M. Shand, J. G. Bohnet, N. H. Jensen, J. Goertzen, V. J. Litwinowicz, J. E. Shield, D. C. Schmitter, G. Rojas, D. L. Leslie-Pelecky

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Abstract

Nanocrystalline Gd0.946Fe0.054 of average grain size 68 nm was prepared by melt-spinning. The magnetic behavior in the vicinity of the paramagnetic to ferromagnetic transition was investigated via dc magnetization and ac susceptibility measurements. The transition temperature and effective critical exponents for the order parameter and zero-field susceptibility were determined using ArrottNoakes and KouvelFisher analyses. The values obtained were TC=291.71±0.07 K, βeff= 0.385±0.009, and γeff=1.24±0.03, respectively. Correction to scaling analysis indicated that the asymptotic exponents were both smaller than the effective ones within the reduced-temperature range investigated, contrary to the behavior seen in monocrystalline Gd. This behavior can be explained in terms of a crossover from 3D short-range Heisenberg universality class to the 3D Ising universality class due to increased anisotropy induced by the high magnetic fields used in the measurements and also possibly due to strain.

Original languageEnglish (US)
Pages (from-to)3303-3309
Number of pages7
JournalJournal of Magnetism and Magnetic Materials
Volume322
Issue number21
DOIs
StatePublished - Nov 1 2010

Keywords

  • Anisotropy
  • Critical exponents
  • Gadolinium
  • Nanocrystalline

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