Publication: Wegner Estimate and Level Repulsion for Wigner Random Matrices
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Date
2009
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Oxford University Press (OUP)
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Erdos, L., B. Schlein, and H.-T. Yau. 2009. “Wegner Estimate and Level Repulsion for Wigner Random Matrices.” International Mathematics Research Notices (August 29). doi:10.1093/imrn/rnp136.
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Abstract
We consider N × N Hermitian random matrices with independent identically distributed entries (Wigner matrices). The matrices are normalized so that the average spacing between consecutive eigenvalues is of order 1/ N. Under suitable assumptions on the distribution of the single matrix element, we first prove that, away from the spectral edges, the empirical density of eigenvalues concentrates around the Wigner semicircle law on energy scales η ≫ N−1. This result establishes the semicircle law on the optimal scale and it removes a logarithmic factor from our previous result [6]. We then show a Wegner estimate, i.e., that the averaged density of states is bounded. Finally, we prove that the eigenvalues of a Wigner matrix repel each other, in agreement with the universality conjecture.
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Keywords
Semicircle law, Wigner random matrix, level repulsion, Wegner estimate, density of states, localization, extended states
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