학술논문
Exciton−Vibrational Relaxation and Transient Absorption Dynamics in LH1 of Rhodopseudomonas viridis: A Redfield Theory Approach
Document Type
Article
Author
Source
The Journal of Physical Chemistry - Part B; June 2002, Vol. 106 Issue: 23 p6025-6037, 13p
Subject
Language
ISSN
15206106; 15205207
Abstract
We explain the ultrafast transient absorption (TA) dynamics in the core LH1 antenna of Rhodopseudomonas viridis at 77 K (Monshouwer, R.; Baltuška, A.; van Mourik, F.; van Grondelle, R. J. Phys. Chem. A 1998 , 102, 4360) using a disordered exciton model with strong coupling to two vibrational modes and weak coupling of vibrational and electronic coordinates to the thermal bath. A quantitative fit of the excitation wavelength- dependent TA dynamics was obtained using the density matrix equation with the Redfield relaxation operator. The sequential and coherent contributions to the TA dynamics were analyzed separately. The time-dependent red shift of TA was explained in terms of exciton relaxation. The lifetimes of higher exciton states of 12−75 fs (depending on the state) were determined from the fit.