Add to ORKGWe investigate the intramolecular dynamics of the ground state and the first three singlet 1Σ+ excited states of boron hydride (BH) using the split-operator method. Ab initio calculations show that these states have strong nonadiabatic couplings, resulting in a complex topology of avoided crossing regions and double well potentials. We attempt to find a method to populate the second minimum of B1Σ+ enabling experimental observation of its vibrational states
Author Institution: Battelle Memorial InstituteA set of full valence-electron configuration interact...
The photodetachment spectroscopy of B3- anion is theoretically studied with the aid of a quantum dyn...
Vibrational wave packet dynamics provides an opportunity to explore the energy landscape and the pop...
We investigate the dynamics of the ground state and the first three singlet 1\Sigma+ excited states ...
The electronic 1\Sigma+ states and potential energy curves have been studied with a view to obtainin...
Sodium hydride (NaH) in the gas phase presents a seemingly simple electronic structure making it a p...
Author Institution: Department of Chemistry Building 148--72, California Institute of TechnologyThe ...
Author Institution: Department of Chemistry, Purdue UniversityWe have performed new experiments that...
The wavefunctions of BH have been obtained using a generalization of the valence bond and Hartree-Fo...
Ab initio quantum chemical methods were used to study ground-state energies and geometrical configu...
The purpose of this research project was to investigate the effect of perturbations to two low-lying...
Optical-optical-optical triple resonance spectroscopy is applied to resolve systems of high Rydberg ...
International audienceThe six-dimensional potential energy surface of the X3Σ-g electronic ground st...
The study of entanglement between bosonic systems is of primary importance for establishing feasible...
We compute the entanglement between the electronic and vibrational motions in the simplest molecular...
Author Institution: Battelle Memorial InstituteA set of full valence-electron configuration interact...
The photodetachment spectroscopy of B3- anion is theoretically studied with the aid of a quantum dyn...
Vibrational wave packet dynamics provides an opportunity to explore the energy landscape and the pop...
We investigate the dynamics of the ground state and the first three singlet 1\Sigma+ excited states ...
The electronic 1\Sigma+ states and potential energy curves have been studied with a view to obtainin...
Sodium hydride (NaH) in the gas phase presents a seemingly simple electronic structure making it a p...
Author Institution: Department of Chemistry Building 148--72, California Institute of TechnologyThe ...
Author Institution: Department of Chemistry, Purdue UniversityWe have performed new experiments that...
The wavefunctions of BH have been obtained using a generalization of the valence bond and Hartree-Fo...
Ab initio quantum chemical methods were used to study ground-state energies and geometrical configu...
The purpose of this research project was to investigate the effect of perturbations to two low-lying...
Optical-optical-optical triple resonance spectroscopy is applied to resolve systems of high Rydberg ...
International audienceThe six-dimensional potential energy surface of the X3Σ-g electronic ground st...
The study of entanglement between bosonic systems is of primary importance for establishing feasible...
We compute the entanglement between the electronic and vibrational motions in the simplest molecular...
Author Institution: Battelle Memorial InstituteA set of full valence-electron configuration interact...
The photodetachment spectroscopy of B3- anion is theoretically studied with the aid of a quantum dyn...
Vibrational wave packet dynamics provides an opportunity to explore the energy landscape and the pop...