Abstract
We have applied both classical and mixed quantum mechanical/molecular mechanical (QM/MM) techniques to the calculation of electronic−vibrational coupling. In order to assess these approaches, we compare results to the steady state absorption and emission spectra of solvated bacteriochlorophyll-a (BChl-a) at room temperature. We find that the method chosen for the calculation of the S0−S1 energy gap significantly affects the calculated spectra. Mixed QM/MM approaches perform substantially better than the purely classical approach, and where an ab initio method is used for calculating the S0−S1 energy gap, the predicted Stokes shift (related to the reorganization energy), and the spectral absorption width are within 5% of the experimental values. We find that the decay of the transition energy correlation function occurs largely over two time scales. Most of the decorrelation occurs in less than 5 fs. This is less than the time taken for the process of photon absorption, indicating that the optical spectrum...
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