Theory for Photoinduced Ionic-Neutral Structural Phase Transition in Quasi One-Dimensional Organic Molecular Crystal TTF-CA : Condensed Matter: Electronic Properties, etc.
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概要
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Using quasi one-dimensional extended Peierls-Hubbard model, we theoretically study the photoinduced ionic-neutral structural phase transition in an organic molecular chain crystal TTF-CA, by means of the adiabatic approximation and the mean-field theory. This model includes strong intra-chain Coulomb interactions which nonlinearly depend on the distance between TTF and CA molecules, and it also includes a weak inter-chain interaction. We will be concerned with the case that the ionic phase is just below the neutral one, and their energies and charge (spin) distribution are investigated, as well as their energy band structures. Moreover, we calculate the optical absorption spectrum by the classical Monte-Carlo method, including the exciton effect and the thermal lattice fluctuations. We also study the nonlinear lattice relaxation of a charge transfer (CT) exciton, and clarify the adiabatic path from its Franck-Condon state to a macroscopic neutral domain. This domain, being separated from the CT exciton by a high barrier, can not be generated by a single photon resonated to this exciton. On the energy surface of the ground state, we find various shallow energy minima, which prevent the neutral domain from decay back to the starting ionic ground state.
- 社団法人日本物理学会の論文
- 2000-06-15
著者
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Nasu Keiichiro
Institute For Molecular Science
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Zheng Hang
Department Of Applied Physics Shanghai Jiao Tong University
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Huai Ping
Institute Of Materials Structure Science The Graduate University For Advanced Studies
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Nasu Keiichiro
Institute of Materials Structure Science, The Graduate University for Advanced Studies
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Hual Ping
Institute of Materials Structure Science, The Graduate University for Advanced Studies
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