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Long time semi classical propagation in quantum chaos
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Journal of Lasers, Optics & Photonics

ISSN: 2469-410X

Open Access

Long time semi classical propagation in quantum chaos


3rd International Conference on Quantum Optics and Quantum Computing

September 10-11, 2018 | London, UK

Eduardo German Vergini

Comision Nacional de Energia Atomica, Argentina
Universidad Nacional de San Martin, Argentina

Posters & Accepted Abstracts: J Laser Opt Photonics

Abstract :

Semi classical propagation of waves is a fruitful approach to understand and evaluate a wide set of physical processes. Nevertheless, long-time propagation in Hamiltonian systems with classically chaotic dynamics was a long-standing unsolved problem. In the last years, we have developed a semi classical technique in order to propagate waves for long times of the order of the Heisenberg time and here, we describe the main points of this development. We construct, in the neighborhood of a given unstable periodic orbit A, a localized wave function consisting of a Gaussian beam with n excitations along A; this construction is named the resonance n of A. The forward (backward) evolution of the resonance is described by a WKB state existing on the unstable (stable) manifold of A. Then, the autocorrelation function of the resonance, being the overlap between the forward and backward evolved states, is evaluated semi classically by the set of homoclinic orbits of A (this set defines the intersection of the stable and unstable manifolds of A). Here, we present the semiclassical computation of the autocorrelation function of resonances in the hyperbola billiard. Furthermore, we present the computation of the correlation function between resonances of A and B (with B another unstable periodic orbit) in terms of the set of heteroclinic orbits between A and B. As an application, by Fourier transforming the autocorrelation we find highly excited scarred Eigen states.

Biography :

E-mail: vergini@tandar.cnea.gov.ar

 

Google Scholar citation report
Citations: 279

Journal of Lasers, Optics & Photonics received 279 citations as per Google Scholar report

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