Nonlinear Sciences – Chaotic Dynamics
Scientific paper
2010-01-19
Nonlinear Sciences
Chaotic Dynamics
5 pages, 1 figure. Content added: pp4,5
Scientific paper
We resolve a long-standing riddle in quantum chaos, posed by certain fully chaotic billiards with constant negative curvature whose periodic orbits are highly degenerate in length. Depending on the boundary conditions for the quantum wave functions, the energy spectra either have uncorrelated levels usually associated with classical integrability or conform to the "universal" Wigner-Dyson type although the classical dynamics in both cases is the same. The resolution turns out surprisingly simple. The Maslov indices of orbits within multiplets of degenerate length either yield equal phases for the respective Feynman amplitudes (and thus Poissonian level statistics) or give rise to amplitudes with uncorrelated phases (leading to Wigner-Dyson level correlations). The recent semiclassical explanation of spectral universality in quantum chaos is thus extended to the latter case of "pseudo-arithmetical" chaos.
Braun Petr
Haake Fritz
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