Magnetism of solids resulting from spin polarization of p orbitals
Magnetism in systems that do not contain transition metal or rare earth ions was recently observed or predicted to exist in a wide variety of systems. We summarize both experimental and theoretical results obtained for ideal bulk II-V and II-IV compounds, molecular crystals containing O(2) or N(2) m...
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Veröffentlicht in: | Journal of physics. Condensed matter 2010-02, Vol.22 (7), p.073202-073202 |
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container_title | Journal of physics. Condensed matter |
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creator | Volnianska, O Boguslawski, P |
description | Magnetism in systems that do not contain transition metal or rare earth ions was recently observed or predicted to exist in a wide variety of systems. We summarize both experimental and theoretical results obtained for ideal bulk II-V and II-IV compounds, molecular crystals containing O(2) or N(2) molecules as structural units, as well as for carbon-based materials such as graphite and graphene nanoribbons. Magnetism can be an intrinsic property of a perfect crystal, or it can be induced by non-magnetic dopants or defects. In the case of vacancies, spin polarization is local and results in their high spin states. The non-vanishing spin polarization is shown to originate in the strong spin polarization of the 2p shell of light atoms from the second row of the periodic table. |
doi_str_mv | 10.1088/0953-8984/22/7/073202 |
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subjects | Graphite - chemistry Magnetics Models, Molecular Nanotubes, Carbon - chemistry |
title | Magnetism of solids resulting from spin polarization of p orbitals |
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