Add to ORKGInternational audienceMolecular vibrations of the molecule HCN/CNH are examined using a combination of a minimum energy path Hamiltonian and high order canonical perturbation theory , as suggested in a recent work [D. Sugny and M. Joyeux, J. Chem. Phys. 112, 31 (2000)]. In addition, the quantum analog of the classical CPT is presented and results obtained therefrom are compared to the classical ones. The MEP Hamiltonian is shown to provide an accurate representation of the original potential energy surface and a convenient starting point for the CPT. The CPT results are subsequently used to elucidate the molecular dynamics: It appears that the isomerization dynamics of HCN/CNH is very trivial, because the three vibrational modes remain larg...
We report the results of variational calculations of the rovibrational energy levels of HCN for J = ...
The [H, C, N] molecular system is a very important model system to many fields of chemical physics a...
none3We report large-scale quantum mechanical calculations for the HCCN radical in its ground electr...
International audienceMolecular vibrations of the molecule HCN/CNH are examined using a combination ...
International audienceCanonical perturbation theory (CPT) is a powerful tool in the field of molecul...
International audienceThe vibrational spectrum of HCP (phosphaethyne) is studied and analyzed in ter...
For high values of the quantum number of the total angular momentum J (up to J = 20), quantum mechan...
We introduce and analyze a model system based on a deformation of a spherical pendulum that can be u...
$^{1}$ J.A. Bentley, J. -P. Brunet. R.E. Wyatt. R.A. Friesner, C. Leforestier, Chem. Phys. Lett., 16...
Author Institution: Department of Chemistry and Theoretical Chemistry Institute, University of Wisco...
Author Institution: MPI f\""ur Str\""omungsforschung; Department of Chemistry, University of CreteWe...
Exact vibration-rotational eigenstates for the ground electronic state of HCN were obtained by solvi...
$^{a}$H. ISHIKAWA et al., Annu. Rev. Phys. Chem. 50, 443 (1999). $^{b}$M. P. JACOBSON and M. CHILD, ...
Variation calculations of the vibration–rotation energy levels of many isotopomers of HCN are report...
$^{a}$ H. Ishikawa et al., J. Chem. Phys. 105, 7383 (1996). $^{b}$ C. Beek et al., J. Chem. Phys. 10...
We report the results of variational calculations of the rovibrational energy levels of HCN for J = ...
The [H, C, N] molecular system is a very important model system to many fields of chemical physics a...
none3We report large-scale quantum mechanical calculations for the HCCN radical in its ground electr...
International audienceMolecular vibrations of the molecule HCN/CNH are examined using a combination ...
International audienceCanonical perturbation theory (CPT) is a powerful tool in the field of molecul...
International audienceThe vibrational spectrum of HCP (phosphaethyne) is studied and analyzed in ter...
For high values of the quantum number of the total angular momentum J (up to J = 20), quantum mechan...
We introduce and analyze a model system based on a deformation of a spherical pendulum that can be u...
$^{1}$ J.A. Bentley, J. -P. Brunet. R.E. Wyatt. R.A. Friesner, C. Leforestier, Chem. Phys. Lett., 16...
Author Institution: Department of Chemistry and Theoretical Chemistry Institute, University of Wisco...
Author Institution: MPI f\""ur Str\""omungsforschung; Department of Chemistry, University of CreteWe...
Exact vibration-rotational eigenstates for the ground electronic state of HCN were obtained by solvi...
$^{a}$H. ISHIKAWA et al., Annu. Rev. Phys. Chem. 50, 443 (1999). $^{b}$M. P. JACOBSON and M. CHILD, ...
Variation calculations of the vibration–rotation energy levels of many isotopomers of HCN are report...
$^{a}$ H. Ishikawa et al., J. Chem. Phys. 105, 7383 (1996). $^{b}$ C. Beek et al., J. Chem. Phys. 10...
We report the results of variational calculations of the rovibrational energy levels of HCN for J = ...
The [H, C, N] molecular system is a very important model system to many fields of chemical physics a...
none3We report large-scale quantum mechanical calculations for the HCCN radical in its ground electr...