The Riemannium

    2001, Volume 6, Number 2, pp.  205-210

    Author(s): Leboeuf P., Monastra A. G., Bohigas O.

    The properties of a fictitious, fermionic, many-body system based on the complex zeros of the Riemann zeta function are studied. The imaginary part of the zeros are interpreted as mean-field single-particle energies, and one fills them up to a Fermi energy $E_F$. The distribution of the total energy is shown to be non-Gaussian, asymmetric and independent of $E_F$ in the limit $E_F \to\infty$. The moments of the limit distribution are computed analytically. The autocorrelation function, the finite energy corrections, and a comparison with random matrix theory are also discussed.
    Citation: Leboeuf P., Monastra A. G., Bohigas O., The Riemannium, Regular and Chaotic Dynamics, 2001, Volume 6, Number 2, pp. 205-210


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