Statistics of low-energy levels of a one-dimensional weakly localized Frenkel exciton: A numerical study

Details Statistics of low-energy levels of a one-dimensional weakly localized Frenkel exciton: A numerical study Statistics of low-energy levels of a one-dimensional weakly localized Frenkel exciton: A numerical study

2001-02-03

arxiv.org/abs/cond-mat/0102051v1

Andrei V. Malyshev and Victor A. Malyshev, Phys. Rev. B 63, 195111 (2001)

Physics

Condensed Matter

Disordered Systems and Neural Networks

10 pages, 6 figures

Scientific paper

10.1103/PhysRevB.63.195111

Numerical study of the one-dimensional Frenkel Hamiltonian with on-site randomness is carried out. We focus on the statistics of the energy levels near the lower exciton band edge, i. e. those determining optical response. We found that the distribution of the energy spacing between the states that are well localized at the same segment is characterized by non-zero mean, i.e. these states undergo repulsion. This repulsion results in a local discrete energy structure of a localized Frenkel exciton. On the contrary, the energy spacing distribution for weakly overlapping local ground states (the states with no nodes within their localization segments) that are localized at different segments has zero mean and shows almost no repulsion. The typical width of the latter distribution is of the same order as the typical spacing in the local discrete energy structure, so that this local structure is hidden; it does not reveal itself neither in the density of states nor in the linear absorption spectra. However, this structure affects the two-exciton transitions involving the states of the same segment and can be observed by the pump-probe spectroscopy. We analyze also the disorder degree scaling of the first and second momenta of the distributions.

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