On the magnetization process and the associated probability in anisotropic cubic crystals (vol 430, pg 103, 2017)

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Date

2019-01

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Volume Title

Type

Article

Publisher

ELSEVIER SCIENCE BV

Series Info

JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS;Volume: 469 Pages: 704-704

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Abstract

We present a theoretical method to calculate specific magnetic properties, e.g. magnetization curves, magnetic susceptibility and probability landscapes along the [100], [110] and [111] crystallographic directions of a crystal of cubic symmetry. The probability landscape displays the evolution of the most probable angular orientation of the magnetization vector, for selected temperatures and magnetic fields. Our method is based on the premises of classical statistical mechanics. The energy density, used in the partition function, is the sum of magnetic anisotropy and Zeeman energies, however no other energies e.g. elastic or magnetoelastic terms are considered in the present work. Model cubic systems of diverse anisotropies are analyzed first, and subsequently material magnetic systems of cubic symmetry; namely iron, nickel and Cox Fe100−x compounds, are discussed. We highlight a correlation between magnetization curves and the associated probability landscapes. In addition, determination of easiest axes of magnetization, using energy consideration, is done and compared with the results of the present method.

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Accession Number: WOS:000447147100102

Keywords

University for anisotropy, Magnetic anisotropy, Magnetic susceptibility, Magnetization

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