Add to ORKGWe have evaluated excitation energy transfer rates in photosyntetic complexes using the exact HEOM method and various approximate methods frequently used in the literature, namely, the Förster method, the Redfield method, the modified Redfield method and the variational master equation. The rates are evaluated for the case of a simple dimer and a trimer photosynthetic complex, with vibrational environment characterized by the Drude-Lorentz spectral density. Comparing approximate rates to the exact ones, we have confirmed the validity of approximate methods within appropriate limits, however these limits are often well outside parameter ranges that are relevant for the dynamics in real photosynthetic complexes. PACS numbers: 87.15.M-, 87.14...
Energy equilibration in light-harvesting antenna systems normally occurs before energy is transferre...
We investigate the exciton dynamics in a molecular crystal. The dynamics is based on the exciton Ham...
We provide a minimal model for a structure-based simulation of excitation energy transfer in pigment...
We compare various theoretical approaches that are frequently used for modeling the excitation dynam...
A master equation derived from non-Markovian quantum state diffusion is used to calculate the excita...
We overview experimental and theoretical studies of energy transfer in the photosynthetic light-harv...
We perform a quantitative comparison of different energy transfer theories, i.e. modified Redfield, ...
We compare theoretical methods for calculating excitation energy transfer rates in multichromophoric...
The excitation energy transfer (EET) process for photosynthetic antenna complexes consisting of subu...
Quantum biology is a relatively new research area which investigates the rules that quantum mechanic...
As one of the most significant natural processes providing food and energy for almost all life on th...
We investigate photosynthetic excitation energy transfer (EET) in the presence of realistic electron...
We numerically investigated the process of exciton transfer in thylakoid membranes. Recent knowledge...
In recent years, the role of molecular vibrations in exciton energy transfer taking place during the...
The fundamental physical mechanisms of energy transfer in photosynthetic complexes is not yet fully ...
Energy equilibration in light-harvesting antenna systems normally occurs before energy is transferre...
We investigate the exciton dynamics in a molecular crystal. The dynamics is based on the exciton Ham...
We provide a minimal model for a structure-based simulation of excitation energy transfer in pigment...
We compare various theoretical approaches that are frequently used for modeling the excitation dynam...
A master equation derived from non-Markovian quantum state diffusion is used to calculate the excita...
We overview experimental and theoretical studies of energy transfer in the photosynthetic light-harv...
We perform a quantitative comparison of different energy transfer theories, i.e. modified Redfield, ...
We compare theoretical methods for calculating excitation energy transfer rates in multichromophoric...
The excitation energy transfer (EET) process for photosynthetic antenna complexes consisting of subu...
Quantum biology is a relatively new research area which investigates the rules that quantum mechanic...
As one of the most significant natural processes providing food and energy for almost all life on th...
We investigate photosynthetic excitation energy transfer (EET) in the presence of realistic electron...
We numerically investigated the process of exciton transfer in thylakoid membranes. Recent knowledge...
In recent years, the role of molecular vibrations in exciton energy transfer taking place during the...
The fundamental physical mechanisms of energy transfer in photosynthetic complexes is not yet fully ...
Energy equilibration in light-harvesting antenna systems normally occurs before energy is transferre...
We investigate the exciton dynamics in a molecular crystal. The dynamics is based on the exciton Ham...
We provide a minimal model for a structure-based simulation of excitation energy transfer in pigment...