Fluctuation aftereffect in magnetic materials
Time dependence of magnetization under constant field conditions is exhibited by all materials subject to hysteresis. The phenomenon is a consequence of thermal activation of irreversible magnetization effects from metastable to stable states. Experimental observations of time dependence may be acco...
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| Published in | IEEE transactions on magnetics Vol. 35; no. 6; pp. 4407 - 4413 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.11.1999
Institute of Electrical and Electronics Engineers |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9464 1941-0069 |
| DOI | 10.1109/20.809132 |
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| Abstract | Time dependence of magnetization under constant field conditions is exhibited by all materials subject to hysteresis. The phenomenon is a consequence of thermal activation of irreversible magnetization effects from metastable to stable states. Experimental observations of time dependence may be accounted for by considering distributions of the energy required for activation of the metastable states. Two simple cases are considered in this paper. The first involves a fixed value activation energy distribution; the second is concerned with magnetization events that all have the same value of activation energy. The latter is applicable to describing magnetization of magnetooptic films. It is shown that the results of measurements of time dependence of magnetization over wide ranges of time and field are useful in distinguishing between different mechanisms involved in magnetization reversal processes. |
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| AbstractList | Data is stored digitally in the form of small regions of magnetic recording media which have their magnetic moments oriented in one of two allowed directions. In the case of perpendicular recording media, the two allowed directions are into and out of the plane of the film. Increased density of stored data per unit area may be achieved by decreasing the size of the elementary storage volumes. The process of recording data involves reversal of the direction of the magnetic moments of the elementary volumes. The suitability of magnetic media for data storage is determined by (a) the need to reverse elementary magnetic moments efficiently and rapidly and (b) the long term stability of the written record. Here, time dependence of magnetization under constant field conditions is exhibited by all materials subject to hysteresis. The phenomenon is a consequence of thermal activation of irreversible magnetization effects from metastable to stable states. Experimental observations of time dependence may be accounted for by considering distributions of the energy required for activation of the metastable states. Two simple cases are considered in this paper. The first involves a fixed value activation energy distribution; the second is concerned with magnetization events that all have the same value of activation energy. The latter is applicable to describing magnetization of magneto-optic films. It is shown that the results of measurements of time dependence of magnetization over wide ranges of time and field are useful in distinguishing between different mechanisms involved in magnetization reversal processes. Time dependence of magnetization under constant field conditions is exhibited by all materials subject to hysteresis. The phenomenon is a consequence of thermal activation of irreversible magnetization effects from metastable to stable states. Experimental observations of time dependence may be accounted for by considering distributions of the energy required for activation of the metastable states. Two simple cases are considered in this paper. The first involves a fixed value activation energy distribution; the second is concerned with magnetization events that all have the same value of activation energy. The latter is applicable to describing magnetization of magnetooptic films. It is shown that the results of measurements of time dependence of magnetization over wide ranges of time and field are useful in distinguishing between different mechanisms involved in magnetization reversal processes. Time dependence of magnetization under constant field conditions is exhibited by all materials subject to hysteresis. The phenomenon is a consequence of thermal activation of irreversible magnetization effects from metastable to stable states. Experimental observations of time dependence may be accounted for by considering distributions of the energy required for activation of the metastable states. Two simple cases are considered in this paper. The first involves a fixed value activation energy distribution; the second is concerned with magnetization events that all have the same value of activation energy. The latter is applicable to describing magnetization of magneto-optic films. It is shown that the results of measurements of time dependence of magnetization over wide ranges of time and field are useful in distinguishing between different mechanisms involved in magnetization reversal processes. Time dependence of magnetization under constant field conditions is exhibited by all materials subject to hysteresis. The phenomenon is a consequence of thermal activation of irreversible magnetization effects from metastable to stable states. Experimental observations of time dependence may be accounted for by considering distributions of the energy required for activation of the metastable states. Two simple cases are considered in this paper. The first involves a fixed value activation energy distribution; the second is concerned with magnetization events that all have the same value of activation energy. The latter is applicable to describing magnetization of magnetooptic films. It is shown that the results of measurements of time dependence of magnetization over wide ranges of time and field are useful in distinguishing between different mechanisms involved in magnetization reversal processes |
| Author | Crew, D.C. Street, R. |
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| Cites_doi | 10.1088/0370-1301/65/9/305 10.1088/0370-1301/63/7/305 10.1051/jphysrad:01951001203033900 10.1088/0953-8984/9/12/010 10.1051/jphysrad:0195000110204900 10.1088/0953-8984/1/29/011 10.1051/anphys/195412090084 10.1063/1.358282 10.1088/0370-1298/62/9/303 10.1098/rsta.1948.0007 |
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| Issue | 6 |
| Keywords | Magnetization reversal Hysteresis loop Theoretical study Magnetic hysteresis Recording material Magnetic materials Magnetic aftereffect Activation energy Magnetic recording Magnetic properties |
| Language | English |
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| References | ref7 barbier (ref9) 1954; 9 ref4 ref3 ref6 ref11 ref10 ref5 ref2 ne´el (ref8) 1949; 5 ref1 |
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| Snippet | Time dependence of magnetization under constant field conditions is exhibited by all materials subject to hysteresis. The phenomenon is a consequence of... Data is stored digitally in the form of small regions of magnetic recording media which have their magnetic moments oriented in one of two allowed directions.... |
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| SubjectTerms | Activation Activation energy Condensed matter: electronic structure, electrical, magnetic, and optical properties Energy distribution Exact sciences and technology Fluctuation Fluctuations GENERAL AND MISCELLANEOUS//MATHEMATICS, COMPUTING, AND INFORMATION SCIENCE HYSTERESIS Magnetic anisotropy Magnetic films Magnetic hysteresis MAGNETIC MATERIALS Magnetic moments MAGNETIC PROPERTIES Magnetic properties and materials Magnetic recording materials MAGNETIC STORAGE DEVICES MAGNETIZATION Magnetization reversal Metastasis Perpendicular magnetic anisotropy Perpendicular magnetic recording Physics Studies of specific magnetic materials TIME DEPENDENCE |
| Title | Fluctuation aftereffect in magnetic materials |
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