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Periodic orbit theory and spectral rigidity in pseudointegrable systems | J. Mellenthin
; S. Russ
; | Date: |
10 Aug 2004 | Subject: | Chaotic Dynamics; Disordered Systems and Neural Networks | nlin.CD cond-mat.dis-nn | Abstract: | We calculate numerically the periodic orbits of pseudointegrable systems of low genus numbers $g$ that arise from rectangular systems with one or two salient corners. From the periodic orbits, we calculate the spectral rigidity $Delta_3(L)$ using semiclassical quantum mechanics with $L$ reaching up to quite large values. We find that the diagonal approximation is applicable when averaging over a suitable energy interval. Comparing systems of various shapes we find that our results agree well with $Delta_3$ calculated directly from the eigenvalues by spectral statistics. Therefore, additional terms as e.g. diffraction terms seem to be small in the case of the systems investigated in this work. By reducing the size of the corners, the spectral statistics of our pseudointegrable systems approaches the one of an integrable system, whereas very large differences between integrable and pseudointegrable systems occur, when the salient corners are large. Both types of behavior can be well understood by the properties of the periodic orbits in the system. | Source: | arXiv, nlin.CD/0408019 | Other source: | [GID 820779] pmid15600726 | Services: | Forum | Review | PDF | Favorites |
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