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Theory of Ferromagnetism and the Ordering of Electronic Energy Levels

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Condensed Matter Physics and Exactly Soluble Models

Abstract

Consider a system of N electrons in one dimension subject to an arbitrary symmetric potential, V(x1,...,x N ),and let E(S) be the lowest energy belonging to the total spin value S. We have proved the following theorem: E(S) < E(S’) if S < S’. Hence, the ground state is unmagnetized. The theorem also holds in two or three dimensions (although it is possible to have degeneracies) provided V (x1,y1,x1, …; x N ,y N ,z N ) is separately symmetric in the x i , y i , and z i . The potential need not be separable, however. Our theorem has strong implications in the theory of ferromagnetism because it is generally assumed that for certain repulsive potentials, the ground state is magnetized. If such be the case, it is a very delicate matter, for a plausible theory must not be so general as to give ferromagnetism in one dimension, nor in three dimensions with a separately symmetric potential.

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Authors and Affiliations

  1. Thomas J. Watson Research Center, International Business Machines Corporation, Yorktown Heights, New York, USA

    Elliott Lieb & Daniel Mattis

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  1. Elliott Lieb
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  2. Daniel Mattis
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Editors and Affiliations

  1. Department of Mathematics, University of California, One Shields Ave., 95616-8633, Davis, CA, USA

    Bruno Nachtergaele

  2. Department of Mathematics, University of Copenhagen, Universitetsparken 5, 2100, Copenhagen, Denmark

    Jan Philip Solovej

  3. Institut für Theoretische Physik, Universität Wien, Boltzmanngasse 5, 1090, Wien, Austria

    Jakob Yngvason

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© 2004 Springer-Verlag Berlin Heidelberg

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Lieb, E., Mattis, D. (2004). Theory of Ferromagnetism and the Ordering of Electronic Energy Levels. In: Nachtergaele, B., Solovej, J.P., Yngvason, J. (eds) Condensed Matter Physics and Exactly Soluble Models. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-06390-3_10

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  • DOI: https://doi.org/10.1007/978-3-662-06390-3_10

  • Publisher Name: Springer, Berlin, Heidelberg

  • Print ISBN: 978-3-642-06093-9

  • Online ISBN: 978-3-662-06390-3

  • eBook Packages: Springer Book Archive

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