Temperature-dependent fluctuations of both site energies and electronic couplings are known to affect the excitation energy transfer in light-harvesting complexes. Environment effects on such fluctuations as well as possible spatial correlations among them are investigated here in the PE545 complex from cryptophyte algae using ensemble-averaged wave packet dynamics to extract the exciton dynamics. This strategy directly uses the time-dependent fluctuations of the system Hamiltonian, as described by quantum mechanics/molecular mechanics calculations performed along a classical MD trajectory. Neither the fluctuations in the couplings nor spatial correlations including cross-correlations between site energies and couplings are found to be impo...
Recent two-dimensional photon-echo experiments suggest that excitation energy transfer in light harv...
Recently, it has been shown that quantum coherence appears in energy transfers of various photosynth...
We used a homogeneous computational approach to derive the excitonic Hamiltonian for five light harv...
Temperature-dependent fluctuations of both site energies and electronic couplings are known to affec...
Temperature-dependent fluctuations of both site energies and electronic couplings are known to affec...
The recent discovery of long-lasting quantum coherence effects in photosynthetic pigment−protein com...
The recent discovery of long-lasting quantum coherence effects in photosynthetic pigment–protein com...
The studies presented in this thesis explore electronic energy transfer (EET) in light-harvesting an...
An accurate approach for computing intermolecular and intrachromophore contributions to spectral den...
AbstractPhotosynthetic light harvesting is a paradigmatic example for quantum effects in biology. In...
This contribution presents a detalied theoretical study on how proteins regulate the electronic coup...
Long-lived quantum coherences observed in several photosynthetic pigment-protein complexes at low an...
Two-dimensional photon-echo experiments indicate that excitation energy transfer between chromophore...
In this paper, we work out a parameterization of environmental noise within the Haken-Strobl-Reinenk...
The interest in the phycoerythrin 545 (PE545) photosynthetic antenna system of marine algae and the ...
Recent two-dimensional photon-echo experiments suggest that excitation energy transfer in light harv...
Recently, it has been shown that quantum coherence appears in energy transfers of various photosynth...
We used a homogeneous computational approach to derive the excitonic Hamiltonian for five light harv...
Temperature-dependent fluctuations of both site energies and electronic couplings are known to affec...
Temperature-dependent fluctuations of both site energies and electronic couplings are known to affec...
The recent discovery of long-lasting quantum coherence effects in photosynthetic pigment−protein com...
The recent discovery of long-lasting quantum coherence effects in photosynthetic pigment–protein com...
The studies presented in this thesis explore electronic energy transfer (EET) in light-harvesting an...
An accurate approach for computing intermolecular and intrachromophore contributions to spectral den...
AbstractPhotosynthetic light harvesting is a paradigmatic example for quantum effects in biology. In...
This contribution presents a detalied theoretical study on how proteins regulate the electronic coup...
Long-lived quantum coherences observed in several photosynthetic pigment-protein complexes at low an...
Two-dimensional photon-echo experiments indicate that excitation energy transfer between chromophore...
In this paper, we work out a parameterization of environmental noise within the Haken-Strobl-Reinenk...
The interest in the phycoerythrin 545 (PE545) photosynthetic antenna system of marine algae and the ...
Recent two-dimensional photon-echo experiments suggest that excitation energy transfer in light harv...
Recently, it has been shown that quantum coherence appears in energy transfers of various photosynth...
We used a homogeneous computational approach to derive the excitonic Hamiltonian for five light harv...