4.5 Article

Magnetization and coercivity of nanocrystalline gadolinium iron garnet

期刊

JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS
卷 332, 期 -, 页码 180-185

出版社

ELSEVIER
DOI: 10.1016/j.jmmm.2012.12.031

关键词

Gadolinium iron garnet nanoparticles; Magnetization; High-field susceptibility; Coercivity; Core-shell model

资金

  1. Vietnam National Foundation for Science and Technology Development (NAFOSTED) [103-02-2012-07]

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Gadolinium iron garnet (GdIG) nanoparticles with mean particle size of about 37 nm have been synthesized by citrate precursor gel formation followed by annealing at 800 degrees C for 2 hours. Magnetic behavior of clustered GdIG nanoparticles was studied in temperature range from 5 K to above Curie temperature. The sample shows a magnetization compensation temperature T-comp similar to 286.5 K and a Curie temperature T-c similar to 560 K. In comparison with the bulk saturation magnetization, the sample exhibits lower spontaneous magnetization in the temperature region from 5 K to T-comp whereas higher spontaneous magnetization is observed at higher temperatures up to near the Curie point. The magnetization curves show a differential susceptibility in high fields which increases sharply below 50 K. At very low temperatures, irreversibility was observed in the magnetization loops, enduring in the fields up to similar to 12.5 kOe. The spontaneous magnetization, high-field susceptibility and low-temperature irreversible effect were discussed based on a model for the interacting particles consisting of ferrimagnetically aligned core spins and disordered spins in surface layer which become frozen at low temperatures. We proposed a mechanism for the enhancement of the spontaneous magnetization above T-comp in which the Gd and Fe spins in the surface layer are largely decoupled at high temperatures and the surface Fe spins realign to the magnetic moment of the core. The magnetic coercivity H-c at low temperatures is governed by the effective anisotropy whereas in the vicinity of the compensation point a peak in the coercive force shows up as a result of the so-called paraprocess with the maximum value of 1.2 kOe at T-comp and by further increasing temperature the coercivity decreases and eventually vanishes at about 500 K. The interparticle interactions were found to play an important role in the hysteresis behavior of the sample. (C) 2012 Elsevier B.V. All rights reserved.

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