C. Seberino scite author profile

[1] Hysteresis measurements have become an important part of characterizing magnetic behavior of rocks in paleomagnetic studies. Theoretical interpretation is often difficult owing to the complexity of mineral magnetism and published data sets demonstrate remanence and coercivity behavior that is currently unexplained. In the last decade, numerical micromagnetic modeling has been used to simulate magnetic particles. Such simulations reveal the existence of nonuniform remanent states between single and multidomain, known as the ''flower'' and ''vortex'' configurations. These suggest plausible explanations for many hysteresis measurements yet fall short of explaining high saturation remanence, high coercivity data such as those commonly observed in fine grained submarine basalts. In this paper, we review the theoretical and experimental progress to date in understanding hysteresis of geological materials. We extend numerical simulations to a greater variety of shapes and sizes, including random assemblages of particles and shapes more complex than simple rods and cubes. Our simulations provide plausible explanations for a wide range of hysteresis behavior.

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Concise, efficient three-dimensional fast multipole method for micromagnetics

Seberino

Bertram

2001

IEEE Trans. Magn.

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Micromagnetics of long ferromagnetic particles

Seberino

Bertram

1997

IEEE Trans. Magn.

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Numerical simulations of hysteresis in longitudinal magnetic tape

Bertram

Seberino

1999

Journal of Magnetism and Magnetic Materials

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Numerical study of hysteresis and morphology in elongated tape particles

Seberino

Bertram

1999

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C. Seberino

Physical interpretation of hysteresis loops: Micromagnetic modeling of fine particle magnetite

Concise, efficient three-dimensional fast multipole method for micromagnetics

Micromagnetics of long ferromagnetic particles

Numerical simulations of hysteresis in longitudinal magnetic tape

Numerical study of hysteresis and morphology in elongated tape particles

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