A disordered excitonic system perturbed by the Gauss-Markov noise approximating the exciton-phonon interaction is investigated. The structure of the mass operator is discussed in dependence on the eigenfunctions of the excitonic Hamiltonian. Explicit calculations of the density of states and the imaginary part of the DF ϵ₂(ω) are performed for Lorentzian static disorder. The influence of the breaking of the k-selection rule or of fluctuations in the transition matrix elements on the frequency dependence of ϵ₂(ω) is considered.

Abstract

Es wird ein ungeordnetes exzitonisches System untersucht in dem ein Gauß-Markov Prozeß die Exziton-Phonon Wechselwirkung approximiert. Die Struktur des Masseoperators wird in Abhängigkeit von den Eigenfunktionen des exzitonischen Hamiltonians diskutiert. Für Lorentz-verteilte statische Unordnung werden die Zustandsdichte und der Imaginärteil der DF ϵ₂(ω) explizit berechnet. Der Einfluß der Brechung der k-Auswahlregel oder von Fluktuationen in den Übergangsmatrixelementen auf die Frequenzabhängigkeit in ϵ₂(ω) werden betrachtet.

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Volume137, Issue1

1 September 1986

Pages 169-181

On the Influence of Noise on the Density of States and Absorption in Disordered Molecular Systems

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On the Influence of Noise on the Density of States and Absorption in Disordered Molecular Systems

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