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Anisotropic Magnetocaloric Properties of The Ludwigite Single Crystal Cu2MnBO5

We present the results of a thorough study of the specific heat and magnetocaloric properties of a ludwigite crystal Cu2MnBO5 over a temperature range of 60 - 350 K and in magnetic fields up to 18 kOe. It is found that at temperatures below the Curie temperature (92 K), capacity possesses a linear temperature-dependent behavior, which is associated with the predominance of two-dimensional antiferromagnetic interactions of magnons. The temperature independence of capacity is observed in the temperature range of 95 - 160 K, which can be attributed to the excitation of the Wigner glass phase. The magnetocaloric effect (i.e. the adiabatic temperature change) was assessed through a direct measurement or an indirect method using the capacity data. Owing to its strong magnetocrystalline anisotropy, an anisotropic MCE or the rotating MCE is observed in Cu2MnBO5. A deep minimum in the rotating MCE near the TC is observed and may be associated with the anisotropy of the paramagnetic susceptibility.

preprint2020arXivOpen access
A. G. GamzatovY. S. KoshkidkoD. C. FreitasE. MoshkinaL. BezmaternykhA. M. AlievS. -C. YuM. H. Phan
cond-mat.mtrl-sci
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A. G. GamzatovY. S. KoshkidkoD. C. FreitasE. MoshkinaL. BezmaternykhA. M. AlievS. -C. YuM. H. Phan

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