ON THE TRANSITION BETWEEN FERROMAGNETIC AND PARAMAGNETIC STATES IN MESOPOROUS MATERIALS WITH FRACTAL MORPHOLOGY
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Abstract
In this paper, we have shown how the presence of pores and pore morphology influence on magnetic phase
transition temperatures in mesoporous ferromagnetic materials. Model calculations have demonstrated the
possibility to obtain macroscopic mesoporous samples with notably reduced Curie temperatures which is also
further depressed in the case the pore morphology is more complicated. The results have been obtained on the
basis of the experimentally verified correlation between the Curie temperature and cohesive energy of the
material and illustrated using the examples of pure mesoporous iron, nickel and cobalt while pore morphology
has been determined by the methods of fractal geometry. Several practical applications of mesoporous materials
with tuned values of the Curie temperature have also been discussed in the final section.
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Shishulin A.V. ON THE TRANSITION BETWEEN FERROMAGNETIC AND PARAMAGNETIC STATES IN MESOPOROUS MATERIALS WITH FRACTAL MORPHOLOGY/A.V. Shishulin, A.A. Potapov, A.V. Shishulina//Eurasian Physical Technical Journal. -2021.-Vol.18. №2(36). Р.6-11.