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Title: The influence of ultrafast laser pulses on electron transfer in molecular wires studied by a non-Markovian density-matrix approach. Author: Welack S, Schreiber M, Kleinekathöfer U. Journal: J Chem Phys; 2006 Jan 28; 124(4):044712. PubMed ID: 16460205. Abstract: New features of molecular wires can be observed when they are irradiated by laser fields. These effects can be achieved by periodically oscillating fields but also by short laser pulses. The theoretical foundation used for these investigations is a density-matrix formalism where the full system is partitioned into a relevant part and a thermal fermionic bath. The derivation of a quantum master equation, either based on a time-convolutionless or time-convolution projection-operator approach, incorporates the interaction with time-dependent laser fields nonperturbatively and is valid at low temperatures for weak system-bath coupling. From the population dynamics the electrical current through the molecular wire is determined. This theory including further extensions is used for the determination of electron transport through molecular wires. As examples, we show computations of coherent destruction of tunneling in asymmetric periodically driven quantum systems, alternating currents and the suppression of the directed current by using a short laser pulse.[Abstract] [Full Text] [Related] [New Search]