Modeling High-Order Ferromagnetic Hysteretic Minor Loops and Spirals Using a Generalized Positive-Feedback Theory
A generalization of the previously-described positive-feedback theory of first- and second-order reversal curves permits modeling of minor loops of arbitrarily high order n. The validity of the theory is tested by using it to model various types of high-order phenomena (n ≥3), including symmetrical...
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| Published in | IEEE transactions on magnetics Vol. 48; no. 3; pp. 1115 - 1129 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.03.2012
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | A generalization of the previously-described positive-feedback theory of first- and second-order reversal curves permits modeling of minor loops of arbitrarily high order n. The validity of the theory is tested by using it to model various types of high-order phenomena (n ≥3), including symmetrical and asymmetrical spirals as well as closed minor loops, in a variety of different hard and soft ferromagnetic materials that exhibit the return-point memory property. |
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| AbstractList | A generalization of the previously-described positive-feedback theory of first- and second-order reversal curves permits modeling of minor loops of arbitrarily high order n . The validity of the theory is tested by using it to model various types of high-order phenomena ( n greater than or equal to 3 ) , including symmetrical and asymmetrical spirals as well as closed minor loops, in a variety of different hard and soft ferromagnetic materials that exhibit the return-point memory property. A generalization of the previously-described positive-feedback theory of first- and second-order reversal curves permits modeling of minor loops of arbitrarily high order n. The validity of the theory is tested by using it to model various types of high-order phenomena (n ≥3), including symmetrical and asymmetrical spirals as well as closed minor loops, in a variety of different hard and soft ferromagnetic materials that exhibit the return-point memory property. A generalization of the previously-described positive-feedback theory of first- and second-order reversal curves permits modeling of minor loops of arbitrarily high order [Formula Omitted]. The validity of the theory is tested by using it to model various types of high-order phenomena [Formula Omitted], including symmetrical and asymmetrical spirals as well as closed minor loops, in a variety of different hard and soft ferromagnetic materials that exhibit the return-point memory property. |
| Author | Harrison, Robert G. |
| Author_xml | – sequence: 1 givenname: Robert G. surname: Harrison fullname: Harrison, Robert G. email: rgh@doe.carleton.ca organization: Department of Electronics, Carleton University, Ottawa, Canada |
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| SubjectTerms | Anhysteresis Asymmetry Cross-disciplinary physics: materials science; rheology Demagnetization demagnetizing spiral energy summation Exact sciences and technology Ferromagnetic materials Ferromagnetism high-order loop high-order return curve Hysteresis Magnetic domains Magnetic hysteresis Magnetism Magnetization Materials Materials science minor loop Other topics in materials science Physics recoil loop return-point memory Spirals |
| Title | Modeling High-Order Ferromagnetic Hysteretic Minor Loops and Spirals Using a Generalized Positive-Feedback Theory |
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