A model of vibronic coupling in a manifold of coupled Frenkel and charge transfer states is applied to evaluate the electric-field-induced shifts of lowest vibronic levels deriving from the lower Davydov component of the Frenkel exciton in sexithiophene. With respect to the isolated-molecule value, vibronic terms combined with the mixing between Frenkel and CT configurations amplify the field-induced shift by the factor of seven for the 0-0 line and by further 60% for the vibronic replica in the main progression-forming mode. Confirmation is found in the existing experimental literature. (C) 2012 Elsevier B. V. All rights reserved.</p
A quantum-electrodynamic approach is studied as an alternative to the classical description of pola...
Validity of the approach recently proposed to describe intermediate-to-strong linear vibronic coupli...
Energy relaxation of electron-vibrational excitations through the emission of ground-state phonons i...
A model of vibronic coupling in a manifold of coupled Frenkel and charge transfer states is applied ...
A model of vibronic coupling in a manifold of coupled Frenkel and charge transfer states is applied ...
A comprehensive theory of linear vibronic coupling in a coupled manifold of Frenkel and charge-trans...
A comprehensive theory of linear vibronic coupling in a coupled manifold of Frenkel and charge-trans...
A novel approach, recently proposed to describe exciton phonon coupling in Frenkel states of an infi...
A comprehensive theory of linear vibronic coupling in a coupled manifold of Frenkel and charge-trans...
An explicit formula expressing the refractive index in terms of exciton energies and oscillator stre...
A new approach to vibronic coupling in molecular crystals is proposed. The underlying model describe...
Based on a unique combination of angle-resolved transmission spectroscopy and transmission data at h...
We present a theoretical and experimental study on the lowest electronically excited states in quasi...
A new approach is proposed to describe intermediate-to-strong linear vibronic coupling in an infinit...
A reduced-dimensional effective-mode representation is developed in order to efficiently describe ex...
A quantum-electrodynamic approach is studied as an alternative to the classical description of pola...
Validity of the approach recently proposed to describe intermediate-to-strong linear vibronic coupli...
Energy relaxation of electron-vibrational excitations through the emission of ground-state phonons i...
A model of vibronic coupling in a manifold of coupled Frenkel and charge transfer states is applied ...
A model of vibronic coupling in a manifold of coupled Frenkel and charge transfer states is applied ...
A comprehensive theory of linear vibronic coupling in a coupled manifold of Frenkel and charge-trans...
A comprehensive theory of linear vibronic coupling in a coupled manifold of Frenkel and charge-trans...
A novel approach, recently proposed to describe exciton phonon coupling in Frenkel states of an infi...
A comprehensive theory of linear vibronic coupling in a coupled manifold of Frenkel and charge-trans...
An explicit formula expressing the refractive index in terms of exciton energies and oscillator stre...
A new approach to vibronic coupling in molecular crystals is proposed. The underlying model describe...
Based on a unique combination of angle-resolved transmission spectroscopy and transmission data at h...
We present a theoretical and experimental study on the lowest electronically excited states in quasi...
A new approach is proposed to describe intermediate-to-strong linear vibronic coupling in an infinit...
A reduced-dimensional effective-mode representation is developed in order to efficiently describe ex...
A quantum-electrodynamic approach is studied as an alternative to the classical description of pola...
Validity of the approach recently proposed to describe intermediate-to-strong linear vibronic coupli...
Energy relaxation of electron-vibrational excitations through the emission of ground-state phonons i...