Chaos in fermionic many-body systems and the metal-insulator transition

H. A. Weidenmueller; J. Tithof; T. Papenbrock; Z. Pluhar

arxiv: 0911.0316 · v2 · pith:VT5TYJRBnew · submitted 2009-11-02 · 🌊 nlin.CD · cond-mat.mes-hall· nucl-th

Chaos in fermionic many-body systems and the metal-insulator transition

T. Papenbrock , Z. Pluhar , J. Tithof , H. A. Weidenmueller This is my paper

classification 🌊 nlin.CD cond-mat.mes-hallnucl-th

keywords transitionensemblefermionicmany-bodymetal-insulatorrandom-matrixsparsesystems

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We show that finite Fermi systems governed by a mean field and a few-body interaction generically possess spectral fluctuations of the Wigner-Dyson type and are, thus, chaotic. Our argument is based on an analogy to the metal-insulator transition. We construct a sparse random-matrix ensemble ScE that mimics that transition. Our claim then follows from the fact that the generic random-matrix ensemble modeling a fermionic interacting many-body system is much less sparse than ScE.

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Chaos in fermionic many-body systems and the metal-insulator transition

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