Using a model of Frenkel excitons coupled to a bath of acoustic phonons in
the host medium, we study the temperature dependence of the dephasing rates and
homogeneous line width in linear molecular aggregates. The model includes
localization by disorder and predicts a power-law thermal scaling of the
effective homogeneous line width. The theory gives excellent agreement with
temperature dependent absorption and hole-burning experiments on aggregates of
the dye pseudoisocyanine.Comment: 11 pages, 3 PostScript figure

Bednarz

D.J. Heijs

Davydov

de Boer

Fidder

Heijs

Hirschmann

J. Knoester

Knapp

Lampoura

Malyshev

Potma

Renge

Scheblykin

Shimizu

Spano

V.A. Malyshev

English

arXiv

Using a model of Frenket excitons coupled to a bath of acoustic phonons in the host medium, we study the temperature dependence of the dephasing rates and homogeneous line width in linear Molecular aggregates. The model includes localization by disorder and predicts a power-law thermal scaling of the effective homogeneous line width. The theory gives excellent agreement with temperature dependent absorption and hole-burning experiments on aggregates of the dye pseudoisocyanine. (c) 2006 Elsevier B.V. All rights reserved

Heijs, D.J.

Malyshev, V.A.

Knoester, J

NARCIS 

Exciton dephasing and thermal line broadening in molecular aggregates

University of Groningen Research Database

University of Groningen

Crossref

Using a model of Frenkel excitons coupled to a bath of acoustic phonons in the host medium, we study the temperature dependence of the dephasing rates and homogeneous line width in linear molecular aggregates. The model includes localization by disorder and predicts a power-law thermal scaling of the effective homogeneous line width. The theory gives excellent agreement with temperature dependent absorption and hole-burning experiments on aggregates of the dye pseudoisocyanine.

Heijs, D.J.,

Malyshev, V.A.,

Knoester, J.,

University of Groningen Digital Archive

Using a model of Frenket excitons coupled to a bath of acoustic phonons in the host medium, we study the temperature dependence of the dephasing rates and homogeneous line width in linear Molecular aggregates. The model includes localization by disorder and predicts a power-law thermal scaling of the effective homogeneous line width. The theory gives excellent agreement with temperature dependent absorption and hole-burning experiments on aggregates of the dye pseudoisocyanine. (c) 2006 Elsevier B.V. All rights reserved.</p

ARTS repository - University of Groningen

https://pure.rug.nl/ws/files/6695243/2006JLuminescHeijs.pdf

Exciton Dephasing and Thermal Line Broadening in Molecular Aggregates

Exciton Dephasing and Thermal Line Broadening in Molecular Aggregates

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NARCIS

University of Groningen Research Database

University of Groningen

Crossref

University of Groningen Digital Archive

ARTS repository - University of Groningen

ARTS repository - University of Groningen

University of Groningen