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Ab initio Theory of Magnetic OrderingIntroduction

Ab initio Theory of Magnetic Ordering: Introduction [Magnetism in a solid-state is a collective phenomenon arising from the interactions among an immense number of electrons, which carry an intrinsic degree of freedom known as spin, and the fixed nuclei. In magnetic materials the electrons act cooperatively to yield the formation of local magnetic moments, which are atom-scale spin polarisation of the electronic density and central magnetic entities at the sub-nanoscale. Magnetic moments can have different orientations and sizes at different atomic sites, and so ordered magnetic patterns called magnetic phases can stabilise following the complexity of the underlying electronic motions and their interactions.] http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png

Ab initio Theory of Magnetic OrderingIntroduction

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Publisher
Springer International Publishing
Copyright
© Springer Nature Switzerland AG 2020
ISBN
978-3-030-37237-8
Pages
1 –5
DOI
10.1007/978-3-030-37238-5_1
Publisher site
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Abstract

[Magnetism in a solid-state is a collective phenomenon arising from the interactions among an immense number of electrons, which carry an intrinsic degree of freedom known as spin, and the fixed nuclei. In magnetic materials the electrons act cooperatively to yield the formation of local magnetic moments, which are atom-scale spin polarisation of the electronic density and central magnetic entities at the sub-nanoscale. Magnetic moments can have different orientations and sizes at different atomic sites, and so ordered magnetic patterns called magnetic phases can stabilise following the complexity of the underlying electronic motions and their interactions.]

Published: Jan 3, 2020

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