The dynamics of the dihydrogen molecule when confined in carbon nanotubes with different chiral- ities and diameters are studied by using a 5 dimensional model considering the most relevant degrees of freedom of the system. The nuclear eigenstates are calculated for an (8,0) and a (5,0) carbon nanotubes by the State-Average Multiconfigurational Time-dependent Hartree, and then studied using qualitative tools (mapping of the total wave functions onto given subspaces) and more rigorous analysis (different kinds of overlaps with reference functions). The qualitative analysis is seen to fail due to a strong coupling between the internal and translational degrees of freedom. Using more accurate tools allows us to gain a deeper insight into the b...
The study of small/medium size molecules inside nanoscale cavities of diverse host material, e.g.,cl...
International audienceA first-principles study of the spectroscopy of a single hydrogen molecule rot...
The energy levels of a hydrogen molecule embedded in the cavity of single-walled carbon nanotubes wi...
The dynamics of the dihydrogen molecule when confined in carbon nanotubes with different chiral- iti...
A study on the quantum dynamics of the hydrogen molecule embedded in the hollow cavity of a Single- ...
We study the coupled rotation-vibration levels of a hydrogen molecule in a confining potential with ...
We have performed rigorous quantum five-dimensional (5D) calculations of the translation-rotation (T...
International audienceWe use symmetry-adapted perturbation theory based on density functional theory...
We report rigorous quantum five-dimensional (5D) calculations of the coupled translation-rotation (T...
The major focus of the research in this program is the study of the behavior of molecular systems co...
Quantum confinement effects, understood as the changes on the structure and dynamics of a molecule w...
Physisorption and storage of molecular hydrogen on single-walled carbon nanotube (SWCNT) of various ...
Quantum confinement effects are known to affect the behavior of molecules adsorbed in nanostructured...
The calculation of the hindered roton-phonon energy levels of a hydrogen molecule in a confining pot...
We report rigorous quantum calculations of the translation-rotation (T-R) eigenstates of the H_2 mol...
The study of small/medium size molecules inside nanoscale cavities of diverse host material, e.g.,cl...
International audienceA first-principles study of the spectroscopy of a single hydrogen molecule rot...
The energy levels of a hydrogen molecule embedded in the cavity of single-walled carbon nanotubes wi...
The dynamics of the dihydrogen molecule when confined in carbon nanotubes with different chiral- iti...
A study on the quantum dynamics of the hydrogen molecule embedded in the hollow cavity of a Single- ...
We study the coupled rotation-vibration levels of a hydrogen molecule in a confining potential with ...
We have performed rigorous quantum five-dimensional (5D) calculations of the translation-rotation (T...
International audienceWe use symmetry-adapted perturbation theory based on density functional theory...
We report rigorous quantum five-dimensional (5D) calculations of the coupled translation-rotation (T...
The major focus of the research in this program is the study of the behavior of molecular systems co...
Quantum confinement effects, understood as the changes on the structure and dynamics of a molecule w...
Physisorption and storage of molecular hydrogen on single-walled carbon nanotube (SWCNT) of various ...
Quantum confinement effects are known to affect the behavior of molecules adsorbed in nanostructured...
The calculation of the hindered roton-phonon energy levels of a hydrogen molecule in a confining pot...
We report rigorous quantum calculations of the translation-rotation (T-R) eigenstates of the H_2 mol...
The study of small/medium size molecules inside nanoscale cavities of diverse host material, e.g.,cl...
International audienceA first-principles study of the spectroscopy of a single hydrogen molecule rot...
The energy levels of a hydrogen molecule embedded in the cavity of single-walled carbon nanotubes wi...