Add to ORKGAn extensive data set of 54 time-resolved pump-probe measurements was used to examine CO+He rotational energy transfer within the CO v=2 rotational manifold. Rotational levels in the range Ji=2-9 were excited and collisional energy transfer of population to the levels Jf=1-10 was monitored. The resulting data set was analyzed by fitting to numerical solutions of the master equation. State-to-state rate constant matrices were generated using fitting law functions and ab initio theoretical calculations that employed the SAPT potential energy surface of Heijmen et al. [J. Chem. Phys. 107, 9921 (1997)]. Fitting laws based on the modified exponential gap (MEG), statistical power exponential gap (SPEG), and energy corrected sudden with exponentia...
$^{1}$ The Application of a Frequency Doubled $CO_{2}$ Laser to Energy Transfer Measurements in CO""...
Exchange-Coulomb model potential energy surfaces have been developed for the Ne–CO interaction. The ...
Symmetry-adapted perturbation theory (SAPT) has been applied to compute the intermolecular potential...
IR-IR double-resonance experiments were used to study the state-to-state rotational relaxation of CO...
Infrared-vacuum ultraviolet double resonance experiments have been implemented in the ultracold envi...
Experimental measurements and theoretical calculations are reported for rotational energy transfer i...
Experimental measurements and theoretical calculations are reported for rotational energy transfer i...
Rotational energy transfer is an important process in a variety of astrophysical environments includ...
Collisional energy transfer from H atoms to CO(v=0, J≈2) has been studied at a collision energy of 1...
A hierarchical family of five three-dimensional potential energy surfaces has been developed for the...
Relative state-to-state rotationally inelastic cross sections for excitation of carbon monoxide by h...
The rotational dynamics of CO single molecules solvated in small He clusters (COHeN) has been studie...
International audienceThe CO2 molecule is of great interest for astrophysical studies since it can b...
Collisional quenching of molecular species is an important process in a variety of astrophysical env...
Vibrational and rotational distributions of CO excited by collisions with 2.3 eV H atoms have been o...
$^{1}$ The Application of a Frequency Doubled $CO_{2}$ Laser to Energy Transfer Measurements in CO""...
Exchange-Coulomb model potential energy surfaces have been developed for the Ne–CO interaction. The ...
Symmetry-adapted perturbation theory (SAPT) has been applied to compute the intermolecular potential...
IR-IR double-resonance experiments were used to study the state-to-state rotational relaxation of CO...
Infrared-vacuum ultraviolet double resonance experiments have been implemented in the ultracold envi...
Experimental measurements and theoretical calculations are reported for rotational energy transfer i...
Experimental measurements and theoretical calculations are reported for rotational energy transfer i...
Rotational energy transfer is an important process in a variety of astrophysical environments includ...
Collisional energy transfer from H atoms to CO(v=0, J≈2) has been studied at a collision energy of 1...
A hierarchical family of five three-dimensional potential energy surfaces has been developed for the...
Relative state-to-state rotationally inelastic cross sections for excitation of carbon monoxide by h...
The rotational dynamics of CO single molecules solvated in small He clusters (COHeN) has been studie...
International audienceThe CO2 molecule is of great interest for astrophysical studies since it can b...
Collisional quenching of molecular species is an important process in a variety of astrophysical env...
Vibrational and rotational distributions of CO excited by collisions with 2.3 eV H atoms have been o...
$^{1}$ The Application of a Frequency Doubled $CO_{2}$ Laser to Energy Transfer Measurements in CO""...
Exchange-Coulomb model potential energy surfaces have been developed for the Ne–CO interaction. The ...
Symmetry-adapted perturbation theory (SAPT) has been applied to compute the intermolecular potential...