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  1. 1 Acta Physica Polonica A

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  1. 1 1995

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  1. 1 Luty T.

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Ground State Phase Diagram of Mixed-Stack Compounds with Intermolecular Electron Transfer

100%
Luty T.
Acta Physica Polonica A
|
1995
|
vol. 87
|
issue 6
1009-1021
EN
The ground state energy for a chain of donor and acceptor molecules (mixed-stack architecture) is calculated within the three-state model. The model describes the intermolecular electron transfer and, in particular, stres­ses the role of the diagonal coupling of the electron to symmetry breaking molecular displacements and the local electric field. The modulation of the in­termolecular Coulomb interaction is shown to have important consequences for the ground state and its dynamics. In particular, the ground state en­ergy as a function of the displacement may show one, two or three minima with varied molecular ionicity. An analysis of the function gives a phase diagram which indicates a possibility for the coexistence of neutral (undis­torted) and ionic (distorted) chains of molecules in the ground state. The function is illustrated by numerical calculations with parameters appropriate for the tetrathiafulvalene-chloranil crystal which undergoes a neutral-to-ionic phase transition induced by either temperature or pressure. The effect of the electron transfer on the lattice dynamics of the mixed-stack system is briefly considered. It is suggested that the thermodynamical phase diagram for tetrathiafulvalene-chloranil system can be understood as a result of two effects: pressure induced quantum mixing between diabatic states which de­termine a nature of components and temperature stimulated classical mixing of the components.
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