Publikation: Controlling the polarity of the transient ferromagneticlike state in ferrimagnets
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It was recently observed that the two antiferromagnetically coupled sublattices of a rare earth-transition metal ferrimagnet can temporarily align ferromagnetically during femtosecond laser heating, but always with the transition metal aligning in the rare earth direction. This behavior has been attributed to the slower magnetization dynamics of the rare earth sublattice. The aim of this work was to assess how the difference in the speed of the transition metal and rare earth dynamics affects the formation of the transient ferromagneticlike state and consequently controls its formation. Our investigation was performed using extensive atomistic spin simulations and analytic micromagnetic theory of ferrimagnets, with analysis of a large area of parameter space such as initial temperature, Gd concentration, and laser fluence. Surprisingly, we found that at high temperatures, close to the Curie point, the rare earth dynamics become faster than those of the transition metal. Subsequently we show that the transient state can be formed with the opposite polarity, where the rare earth aligns in the transition metal direction. Our findings shed light on the complex behavior of this class of ferrimagnetic materials and highlight an important feature which must be considered, or even exploited, if these materials are to be used in ultrafast magnetic devices.
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ATXITIA, Unai, Joseph BARKER, Roy W. CHANTRELL, Oksana CHUBYKALO-FESENKO, 2014. Controlling the polarity of the transient ferromagneticlike state in ferrimagnets. In: Physical Review B. 2014, 89(22), 224421. ISSN 1098-0121. eISSN 1095-3795. Available under: doi: 10.1103/PhysRevB.89.224421BibTex
@article{Atxitia2014Contr-30881,
year={2014},
doi={10.1103/PhysRevB.89.224421},
title={Controlling the polarity of the transient ferromagneticlike state in ferrimagnets},
number={22},
volume={89},
issn={1098-0121},
journal={Physical Review B},
author={Atxitia, Unai and Barker, Joseph and Chantrell, Roy W. and Chubykalo-Fesenko, Oksana},
note={Article Number: 224421}
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<dcterms:abstract xml:lang="eng">It was recently observed that the two antiferromagnetically coupled sublattices of a rare earth-transition metal ferrimagnet can temporarily align ferromagnetically during femtosecond laser heating, but always with the transition metal aligning in the rare earth direction. This behavior has been attributed to the slower magnetization dynamics of the rare earth sublattice. The aim of this work was to assess how the difference in the speed of the transition metal and rare earth dynamics affects the formation of the transient ferromagneticlike state and consequently controls its formation. Our investigation was performed using extensive atomistic spin simulations and analytic micromagnetic theory of ferrimagnets, with analysis of a large area of parameter space such as initial temperature, Gd concentration, and laser fluence. Surprisingly, we found that at high temperatures, close to the Curie point, the rare earth dynamics become faster than those of the transition metal. Subsequently we show that the transient state can be formed with the opposite polarity, where the rare earth aligns in the transition metal direction. Our findings shed light on the complex behavior of this class of ferrimagnetic materials and highlight an important feature which must be considered, or even exploited, if these materials are to be used in ultrafast magnetic devices.</dcterms:abstract>
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