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Random matrices from the elliptic Ginibre orthogonal ensemble (GinOE) are a certain linear combination of a real symmetric, and real anti-symmetric, Gaussian random matrix and controlled by a parameter τ. Our interest is in the fluctuations of the number of real eigenvalues, for fixed τ when the expected number is proportional to the square root of the matrix size N, and for τ scaled to the weakly non-symmetric limit, when the expected number is proportional to N. By establishing that the generating function for the probabilities specifying the distribution of the number of real eigenvalues has only negative real zeros, and using too the fact that variances in both circumstances of interest tends to infinity as N→∞, the known central limit theorem for the fluctuations is strengthened to a local central limit theorem, and the rate of convergence is discussed.
Peter J. Forrester (Mon,) studied this question.
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