Qualitative insight and quantitative analysis of the effect of temperature on the coercivity of a magnetic system

The temperature dependence of the response of a magnetic system to an applied field can be understood qualitatively by considering variations in the energy surface characterizing the system and estimated quantitatively with rate theory. In the system analysed here, Fe/Sm-Co spring magnet, the width of the hysteresis loop is reduced to a half when temperature is raised from 25 K to 300 K. This narrowing can be explained and reproduced quantitatively without invoking temperature dependence of model parameters as has typically been done in previous data analysis. The applied magnetic field lowers the energy barrier for reorientation of the magnetization but thermal activation brings the system over the barrier. A 2-dimensional representation of the energy surface is developed and used to gain insight into the transition mechanism and to demonstrate how the applied field alters the transition path. Our results show the importance of explicitly including the effect of thermal activation when interpreting experiments involving the manipulation of magnetic systems at finite temperature.

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10.1063/1.4942428

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Moskalenko, M, Bessarab, P F, Uzdin, V M & Jónsson, H 2016, 'Qualitative insight and quantitative analysis of the effect of temperature on the coercivity of a magnetic system', AIP Advances, vol. 6, no. 2, 025213, pp. 1-8. https://doi.org/10.1063/1.4942428

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https://urn.fi/URN:NBN:fi:aalto-201705114274

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[article-cris] Perustieteiden korkeakoulu / SCI

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Qualitative insight and quantitative analysis of the effect of temperature on the coercivity of a magnetic system

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