On the ability to determine intrinsic switching field distributions from hysteresis loops in the partially correlated magnetization reversal regime

O. Hovorka; Y. Liu; K. A. Dahmen; A. Berger

doi:10.1016/j.jmmm.2009.09.076

On the ability to determine intrinsic switching field distributions from hysteresis loops in the partially correlated magnetization reversal regime

O. Hovorka, Y. Liu, K. A. Dahmen, A. Berger

Research output: Contribution to journal › Article › peer-review

Abstract

In the present work we use computational analysis based on the interacting hysteron model to address the question in how far intrinsic microscopic materials information can be retrieved from magnetic hysteresis loop data. Specifically, the goal is to understand whether it is possible to determine the intrinsic switching field distribution if exchange and magneto-static interactions of variable strength are simultaneously present in the material. We find that due to an existing degeneracy of hysteresis data sets, it is generally not possible to separately determine contributions from exchange and magneto-static interactions, even if the magnetization reversal is only partially correlated. However, the intrinsic switching field distribution could always be accurately determined, as long as the system remains in the uncorrelated or partially correlated magnetization reversal regime.

Original language	English (US)
Pages (from-to)	459-468
Number of pages	10
Journal	Journal of Magnetism and Magnetic Materials
Volume	322
Issue number	4
DOIs	https://doi.org/10.1016/j.jmmm.2009.09.076
State	Published - Feb 2010

Keywords

Hysteresis
Interacting hysteron model
Intrinsic switching field distribution
Magnetic correlations
Magnetic recording
Magnetic reversal

ASJC Scopus subject areas

Condensed Matter Physics
Electronic, Optical and Magnetic Materials

Online availability

10.1016/j.jmmm.2009.09.076

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title = "On the ability to determine intrinsic switching field distributions from hysteresis loops in the partially correlated magnetization reversal regime",

abstract = "In the present work we use computational analysis based on the interacting hysteron model to address the question in how far intrinsic microscopic materials information can be retrieved from magnetic hysteresis loop data. Specifically, the goal is to understand whether it is possible to determine the intrinsic switching field distribution if exchange and magneto-static interactions of variable strength are simultaneously present in the material. We find that due to an existing degeneracy of hysteresis data sets, it is generally not possible to separately determine contributions from exchange and magneto-static interactions, even if the magnetization reversal is only partially correlated. However, the intrinsic switching field distribution could always be accurately determined, as long as the system remains in the uncorrelated or partially correlated magnetization reversal regime.",

keywords = "Hysteresis, Interacting hysteron model, Intrinsic switching field distribution, Magnetic correlations, Magnetic recording, Magnetic reversal",

author = "O. Hovorka and Y. Liu and Dahmen, {K. A.} and A. Berger",

note = "Funding Information: Work at UIUC was supported from NSF through Grant no. DMR 03-14279 and the Materials Computation Center Grant no. DMR 03-25939(ITR) . Work at nanoGUNE acknowledges funding from the Department of Industry, Trade, and Tourism of the Basque Government and the Provincial Council of Gipuzkoa under the EROTEK Program, Project no. IE06-172, as well as from the Spanish Ministry of Science and Education under the Consolider-Ingenio 2010 Program, Project no. CSD2006-53. OH acknowledges support through the Marie Curie International Reintegration Grant within the 7th European Community Framework Programme, Project no. 224924.",

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doi = "10.1016/j.jmmm.2009.09.076",

language = "English (US)",

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AU - Hovorka, O.

AU - Liu, Y.

AU - Dahmen, K. A.

AU - Berger, A.

N1 - Funding Information: Work at UIUC was supported from NSF through Grant no. DMR 03-14279 and the Materials Computation Center Grant no. DMR 03-25939(ITR) . Work at nanoGUNE acknowledges funding from the Department of Industry, Trade, and Tourism of the Basque Government and the Provincial Council of Gipuzkoa under the EROTEK Program, Project no. IE06-172, as well as from the Spanish Ministry of Science and Education under the Consolider-Ingenio 2010 Program, Project no. CSD2006-53. OH acknowledges support through the Marie Curie International Reintegration Grant within the 7th European Community Framework Programme, Project no. 224924.

PY - 2010/2

Y1 - 2010/2

N2 - In the present work we use computational analysis based on the interacting hysteron model to address the question in how far intrinsic microscopic materials information can be retrieved from magnetic hysteresis loop data. Specifically, the goal is to understand whether it is possible to determine the intrinsic switching field distribution if exchange and magneto-static interactions of variable strength are simultaneously present in the material. We find that due to an existing degeneracy of hysteresis data sets, it is generally not possible to separately determine contributions from exchange and magneto-static interactions, even if the magnetization reversal is only partially correlated. However, the intrinsic switching field distribution could always be accurately determined, as long as the system remains in the uncorrelated or partially correlated magnetization reversal regime.

AB - In the present work we use computational analysis based on the interacting hysteron model to address the question in how far intrinsic microscopic materials information can be retrieved from magnetic hysteresis loop data. Specifically, the goal is to understand whether it is possible to determine the intrinsic switching field distribution if exchange and magneto-static interactions of variable strength are simultaneously present in the material. We find that due to an existing degeneracy of hysteresis data sets, it is generally not possible to separately determine contributions from exchange and magneto-static interactions, even if the magnetization reversal is only partially correlated. However, the intrinsic switching field distribution could always be accurately determined, as long as the system remains in the uncorrelated or partially correlated magnetization reversal regime.

KW - Hysteresis

KW - Interacting hysteron model

KW - Intrinsic switching field distribution

KW - Magnetic correlations

KW - Magnetic recording

KW - Magnetic reversal

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On the ability to determine intrinsic switching field distributions from hysteresis loops in the partially correlated magnetization reversal regime

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