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Regular and chaotic dynamics in systems with excitonic-vibronic coupling

โœ Scribed by B. Esser; H. Schanz

Publisher
Elsevier Science
Year
1994
Tongue
English
Weight
427 KB
Volume
4
Category
Article
ISSN
0960-0779

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โœฆ Synopsis

An analysis of a dynamical system presenting a semiclassical description of electronic excitations on molecular dimers, including explicitly their interaction with intramolecular vibrational degrees of freedom, is performed.

The transition from regular to chaotic dynamics, which depends on the coupling strength and the total energy, is analysed by presenting Poincare sections in both the excitonic and vibronic variables.

It is shown that, with increasing total energy, chaos develops in the region of the excitonic ground state which is subjected to a bifurcation.

For high energies, chaos is spread globally over the Bloch sphere containing, however, regular islands located in the region of the energetically higher excitonic antisymmetric state.

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