Modeling of the excited states of multichromophoric systems is crucial for the understanding of photosynthesis functioning. The excitonic Hamiltonian method is widely used for such calculations. Excited states of the combined system are constructed from the wave functions of individual chromophores while their interactions are described by excitonic couplings. In the current study we enhance earlier proposed non-orthogonal product approach to incorporate dynamic correlation effects accounted for by the multireference perturbation theory. We discuss the problems of constructing the excitonic Hamiltonian including charge-transfer states for the molecular systems where the overlap contribution to the excitonic couplings is non-negligible. The ...
The detailed knowledge of the processes following photoexcitation is extremely important, but the un...
Electronic energy transfer is widely used as a molecular ruler to interrogate the structure of bioma...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
The study of energy/charge transfer and other aspects of nonadiabatic dynamics in multichromophoric ...
We investigate photosynthetic excitation energy transfer (EET) in the presence of realistic electron...
We present an implementation of the Frenkel exciton model in the framework of the semiempirical floa...
I investigate the dynamics of multi-state central systems coupled bilinearly to an external oscilla...
We provide a minimal model for a structure-based simulation of excitation energy transfer in pigment...
A procedure for a detailed analysis of excited states in systems of interacting chromophores is prop...
An accurate approach for computing intermolecular and intrachromophore contributions to spectral den...
As one of the most significant natural processes providing food and energy for almost all life on th...
\u3cp\u3eA general approach to determine orientation and distance-dependent effective intermolecular...
The detailed knowledge of the processes following photoexcitation is extremely important, but the un...
Electronic energy transfer is widely used as a molecular ruler to interrogate the structure of bioma...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
We report the development and the implementation of an exciton approach that allows ab initio nonadi...
The study of energy/charge transfer and other aspects of nonadiabatic dynamics in multichromophoric ...
We investigate photosynthetic excitation energy transfer (EET) in the presence of realistic electron...
We present an implementation of the Frenkel exciton model in the framework of the semiempirical floa...
I investigate the dynamics of multi-state central systems coupled bilinearly to an external oscilla...
We provide a minimal model for a structure-based simulation of excitation energy transfer in pigment...
A procedure for a detailed analysis of excited states in systems of interacting chromophores is prop...
An accurate approach for computing intermolecular and intrachromophore contributions to spectral den...
As one of the most significant natural processes providing food and energy for almost all life on th...
\u3cp\u3eA general approach to determine orientation and distance-dependent effective intermolecular...
The detailed knowledge of the processes following photoexcitation is extremely important, but the un...
Electronic energy transfer is widely used as a molecular ruler to interrogate the structure of bioma...
We present a comparative study on the influence of the quantum mechanical QM method including basis ...