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Quantum dynamics of charge transfer on the one-dimensional lattice:Wave packet spreading and recurrence 被引量:1

Quantum dynamics of charge transfer on the one-dimensional lattice:Wave packet spreading and recurrence
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摘要 The wave function temporal evolution on the one-dimensional (ID) lattice is considered in the tight-binding approxi- mation. The lattice consists of N equal sites and one impurity site (donor). The donor differs from other lattice sites by the on-site electron energy E and the intersite coupling C. The moving wave packet is formed from the wave function initially localized on the donor. The exact solution for the wave packet velocity and the shape is derived at different values E and C. The velocity has the maximal possible group velocity v = 2. The wave packet width grows with time -t1/3 and its amplitude decreases ,- t-1/3. The wave packet reflects multiply from the lattice ends. Analytical expressions for the wave packet front propagation and recurrence are in good agreement with numeric simulations. The wave function temporal evolution on the one-dimensional (ID) lattice is considered in the tight-binding approxi- mation. The lattice consists of N equal sites and one impurity site (donor). The donor differs from other lattice sites by the on-site electron energy E and the intersite coupling C. The moving wave packet is formed from the wave function initially localized on the donor. The exact solution for the wave packet velocity and the shape is derived at different values E and C. The velocity has the maximal possible group velocity v = 2. The wave packet width grows with time -t1/3 and its amplitude decreases ,- t-1/3. The wave packet reflects multiply from the lattice ends. Analytical expressions for the wave packet front propagation and recurrence are in good agreement with numeric simulations.
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2016年第1期817-830,共14页 中国物理B(英文版)
关键词 quantum dynamics tight-binding approximation charge transport quantum dynamics, tight-binding approximation, charge transport
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