Add to ORKGQuantum and classical vibrational energy transfer between two ligands separated by a heavy atom are compared for a model system, one ligand being vibrationally excited initially and the other unexcited. Similarities and differences of quantum and classical results are noted. The approximate separability of certain modes simplifies the interpretation
A theoretical approach to the energy transfer process that occurs between a ligand and a rare-earth ...
Transition metal complexes and their properties have been of interest to scientists for many decades...
A systematic procedure is described for calculating rate constants for the relaxation and excitation...
Quantum and classical vibrational energy transfer between two ligands separated by a heavy atom are ...
Quantum and classical vibrational energy transfer between two ligands separated by a heavy atom are ...
Vibrational energy relaxation is studied for a model system with two different ligands separated by ...
Vibrational energy relaxation is studied for a model system with two different ligands separated by ...
Vibrational energy relaxation is studied for a model system with two different ligands separated by ...
We consider the distinguishing features of two main types of classical anharmonic motion in molecule...
We study excitation energy transfer (EET) in a model three-site system with a mixed-quantum classica...
Similarities and differences between quantum, semiclassical and classical treatments of electron tra...
Similarities and differences between quantum, semiclassical and classical treatments of electron tra...
A simple model potential energy surface is constructed and used in both quasiclassical trajectory ca...
A simple model potential energy surface is constructed and used in both quasiclassical trajectory ca...
We consider the transfer of vibrational energy in proteins and derive a simplified model for the res...
A theoretical approach to the energy transfer process that occurs between a ligand and a rare-earth ...
Transition metal complexes and their properties have been of interest to scientists for many decades...
A systematic procedure is described for calculating rate constants for the relaxation and excitation...
Quantum and classical vibrational energy transfer between two ligands separated by a heavy atom are ...
Quantum and classical vibrational energy transfer between two ligands separated by a heavy atom are ...
Vibrational energy relaxation is studied for a model system with two different ligands separated by ...
Vibrational energy relaxation is studied for a model system with two different ligands separated by ...
Vibrational energy relaxation is studied for a model system with two different ligands separated by ...
We consider the distinguishing features of two main types of classical anharmonic motion in molecule...
We study excitation energy transfer (EET) in a model three-site system with a mixed-quantum classica...
Similarities and differences between quantum, semiclassical and classical treatments of electron tra...
Similarities and differences between quantum, semiclassical and classical treatments of electron tra...
A simple model potential energy surface is constructed and used in both quasiclassical trajectory ca...
A simple model potential energy surface is constructed and used in both quasiclassical trajectory ca...
We consider the transfer of vibrational energy in proteins and derive a simplified model for the res...
A theoretical approach to the energy transfer process that occurs between a ligand and a rare-earth ...
Transition metal complexes and their properties have been of interest to scientists for many decades...
A systematic procedure is described for calculating rate constants for the relaxation and excitation...