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Quantum Energy Levels and Classical Periodic Orbits: Discreteness and Statistical Duality.(Author abstract)

Connors, R. D. ; Keating, J. P.

Foundations of Physics, April, 2001, Vol.31(4), p.669(24) [Periódico revisado por pares]

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  • Título:
    Quantum Energy Levels and Classical Periodic Orbits: Discreteness and Statistical Duality.(Author abstract)
  • Autor: Connors, R. D. ; Keating, J. P.
  • Assuntos: Quantum Electrodynamics -- Analysis ; Matrix Groups -- Analysis ; Statistical Mechanics -- Analysis
  • É parte de: Foundations of Physics, April, 2001, Vol.31(4), p.669(24)
  • Descrição: Byline: R. D. Connors (1), J. P. Keating (1) Abstract: It is shown that both universal and non-universal correlations must exist between classical periodic orbits in order that Gutzwiller's semiclassical trace formula is consistent with a real, discrete quantum energy spectrum. Formulae for the two-point correlations are derived. The universal correlations are consistent with those conjectured by Argaman et al. (1993). Likewise, both universal and non-universal correlations must exist between quantum energy levels in order that the trace formula be consistent with the fact that periodic orbit actions are real and discrete. In this case, the two-point correlations implied are consistent with random matrix theory and previous semiclassical calculations. These ideas are illustrated with reference to the primes and the Riemann zeros. Author Affiliation: (1) School of Mathematics, University of Bristol, Bristol, BS8 1TW, United Kingdom Article History: Registration Date: 16/10/2004
  • Idioma: English

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