A model Hamiltonian is proposed for systems of poly-phenylene-vinylene (PPV) type, which describes excitation energy transfer (EET) in the presence of torsional and bond-length-alternation coordinates that couple neighboring fragments. This model is employed to describe coherent EET, starting from a partially delocalized exciton state which is initially separated from the rest of the chain by a defect due to a pronounced torsional displacement at one of the inter-fragment junctions. EET is found to be driven by the restoring force of the torsions towards the planar geometry. Quantum dynamical calculations are carried out for a minimal five-site model, using the multiconfiguration time-dependent Hartree (MCTDH) method.
Coherent Excitation Transfer Driven by Torsional Dynamics : a Model Hamiltonian for PPV Type Systems / F. Sterpone, R. Martinazzo, A.N. Panda, I. Burghardt. - In: ZEITSCHRIFT FÜR PHYSIKALISCHE CHEMIE. - ISSN 0942-9352. - 225:5(2011), pp. 541-551. [10.1524/zpch.2011.0117]
Coherent Excitation Transfer Driven by Torsional Dynamics : a Model Hamiltonian for PPV Type Systems
R. MartinazzoSecondo
;
2011
Abstract
A model Hamiltonian is proposed for systems of poly-phenylene-vinylene (PPV) type, which describes excitation energy transfer (EET) in the presence of torsional and bond-length-alternation coordinates that couple neighboring fragments. This model is employed to describe coherent EET, starting from a partially delocalized exciton state which is initially separated from the rest of the chain by a defect due to a pronounced torsional displacement at one of the inter-fragment junctions. EET is found to be driven by the restoring force of the torsions towards the planar geometry. Quantum dynamical calculations are carried out for a minimal five-site model, using the multiconfiguration time-dependent Hartree (MCTDH) method.
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