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FORC Diagram Features of Co Particles due to Reversal by Domain Nucleation

Leoni Breth ; Fischbacher, Johann ; Kovacs, Alexander ; Özelt, Harald ; Schrefl, Thomas ; Brückl, Hubert ; Czettl, Christoph ; Kührer, Saskia ; Pachlhofer, Julia ; Schwarz, Maria

arXiv.org, 2022-07

Ithaca: Cornell University Library, arXiv.org

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  • Título:
    FORC Diagram Features of Co Particles due to Reversal by Domain Nucleation
  • Autor: Leoni Breth ; Fischbacher, Johann ; Kovacs, Alexander ; Özelt, Harald ; Schrefl, Thomas ; Brückl, Hubert ; Czettl, Christoph ; Kührer, Saskia ; Pachlhofer, Julia ; Schwarz, Maria
  • Assuntos: Anisotropy ; Cubes ; Domains ; Geophysics ; Magnetic materials ; Magnetization reversal ; Materials science ; Nucleation ; Physics - Other Condensed Matter
  • É parte de: arXiv.org, 2022-07
  • Descrição: First Order Reversal Curve (FORC) diagrams are a popular tool in geophysics and materials science for the characterization of magnetic particles of natural and synthetic origin. However, there is still a lot of controversy about the rigorous interpretation of the origin of certain features in a FORC diagram. In this study, we analyze FORCs computed by micromagnetic simulations of Co cubes with dimensions of 50, 100 and 150 nm and uniaxial magnetocrystalline anisotropy. For the larger cubes we observe the formation of a stable two-domain state. The nucleation of a reversed domain and its subsequent annihilation are clearly visible as separate peaks in the FORC diagram. They spread out along the coordinate axis in the FORC diagram, which is associated with the bias field \(H_U\) of a Preisach hysteron. Based on our findings, we state that a FORC diagram peak spreading along the \(H_U\) axis can have its origin in the step-wise magnetization reversal driven by nucleation of domains in a single particle. This means that we have identified another mechanism apart from the well-known magnetostatic interaction between a set of particles that leads to features in the FORC diagram extending along the \(H_U\)-axis. Our study demonstrates that if FORCs shall be used as a quantitative tool to assess the microstructure of samples containing magnetic material, more information from other methods will be required to identify the correct physical mechanism by which a certain "fingerprint" in a FORC diagram is produced.
  • Editor: Ithaca: Cornell University Library, arXiv.org
  • Idioma: Inglês
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