中文

Electronic coherence in mixed-valence systems: Spectral analysis

化学物理 2007-05-23 v1 统计力学

摘要

The electron transfer kinetics of mixed-valence systems is studied via solving the eigen-structure of the two-state non-adiabatic diffusion operator for a wide range of electronic coupling constants and energy bias constants. The calculated spectral structure consists of three branches in the eigen-diagram, a real branch corresponding to exponential or multi-exponential decay and two symmetric branches corresponding to population oscillations between donor and acceptor states. The observed electronic coherence is shown as a result of underdamped Rabi oscillations in an overdamped solvent environment. The time-evolution of electron population is calculated by applying the propagator constructed from the eigen-solution to the non-equilibrium initial preparation, and it agrees perfectly with the result of a direct numerical propagation of the density matrix. The resulting population dynamics confirms that increasing the energy bias destroys electronic coherence.

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引用

@article{arxiv.physics/0008164,
  title  = {Electronic coherence in mixed-valence systems: Spectral analysis},
  author = {Y. Jung and R. J. Silbey and J. Cao},
  journal= {arXiv preprint arXiv:physics/0008164},
  year   = {2007}
}

备注

24 pages, 11 figures