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Chemical Reviews, 2020
Skyrmion, a concept originally proposed in particle physics half a century ago, can now find the most fertile field for its applicability, that is, the magnetic skyrmion realized in helimagnetic materials. The spin swirling vortex-like texture of the magnetic skyrmion can define the particle nature by topology; that is, all the constituent spin moments
Yoshinori Tokura, Naoya Kanazawa
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Skyrmion, a concept originally proposed in particle physics half a century ago, can now find the most fertile field for its applicability, that is, the magnetic skyrmion realized in helimagnetic materials. The spin swirling vortex-like texture of the magnetic skyrmion can define the particle nature by topology; that is, all the constituent spin moments
Yoshinori Tokura, Naoya Kanazawa
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Magnetism and Magnetic Materials
1992Abstract Atomic Physics and Magnetic Properties From Atomic Physics to the Physics of Solids: The Examples of Van Vleck and Stoner The Technological Dimension Reunion sur le Magnetisme: Strasbourg, May 1939 The War and Its Aftermath By the 1930s, the exploitation of the magnetic characteristics of materials formed a key element in some ...
Stephen T Keith, Pierre Quedec
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Science, 1980
Physicists, materials scientists, and engineers combined to bring solid-state bubble devices into the computer memory and recording marketplace. Devices with smaller bubbles are being developed for increased data capacity and lower cost. Epitaxial garnet films made by isothermal dipping in molten solutions helped put the technology in place and will ...
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Physicists, materials scientists, and engineers combined to bring solid-state bubble devices into the computer memory and recording marketplace. Devices with smaller bubbles are being developed for increased data capacity and lower cost. Epitaxial garnet films made by isothermal dipping in molten solutions helped put the technology in place and will ...
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Proceedings of the IEEE, 1990
The state of art is reviewed with an emphasis on recent research results and a view to identifying areas in which further developments in materials and processing might lead to even better properties and greater application of novel technology. Basis magnetic considerations are discussed, namely, B-H loop shape, core loss, magnetic anisotropy and ...
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The state of art is reviewed with an emphasis on recent research results and a view to identifying areas in which further developments in materials and processing might lead to even better properties and greater application of novel technology. Basis magnetic considerations are discussed, namely, B-H loop shape, core loss, magnetic anisotropy and ...
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Magnetism and Magnetic Materials
2001Covering basic physical concepts, experimental methods, and applications, this book is an indispensable text on the fascinating science of magnetism, and an invaluable source of practical reference data. Accessible, authoritative, and assuming undergraduate familiarity with vectors, electromagnetism and quantum mechanics, this textbook is well suited ...
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Opportunities in Magnetic Materials
Science, 1985Recent discoveries of new magnetic materials may greatly improve the performance of devices containing such materials and may lead to entirely new applications. For example, boron-based temary compounds for permanent magnets make new compact motor designs practical; amorphous transformer materials show greatly reduced losses at high frequencies; and ...
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Transactions of the American Institute of Electrical Engineers, 1936
Permanent magnet materials recently have been developed with characteristics radically different from those of previous materials, the carbon, cobalt, and chromium steels. In this paper, the essential properties of these new materials are discussed and are compared with the corresponding properties of the older materials.
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Permanent magnet materials recently have been developed with characteristics radically different from those of previous materials, the carbon, cobalt, and chromium steels. In this paper, the essential properties of these new materials are discussed and are compared with the corresponding properties of the older materials.
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Magnetic properties of materials
1993The magnetic properties of materials only receive a satisfactory microscopic explanation by reference to the quantum structure of the constituent atoms and molecules. Quantum states of electrons are always dynamic in nature and they can involve surprisingly large internal electric currents.
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Magnetic Materials and Permanent Magnets
2000The historical and physical background of ferromagnetic materials technology, together with development of applied electromagnetic field theory and its computation techniques are reviewed. A comparative study of magnetic material properties, such as B/H curves, hysteresis loops, and power losses has also been covered.
Janusz Turowski, Stawomir Wiak
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Magnetism and magnetic properties of materials
1993Some magnetic behaviour has been known and used for many centuries. The earliest experiences of magnetic properties concerned the behaviour of magnetite, which is the only material which occurs naturally and shows obvious magnetic behaviour. It was this mineral which provided lodestone; it was known more than 2000 years ago to both the Greeks and ...
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