Add to ORKGExperimental measurements and theoretical calculations are reported for rotational energy transfer in the Ar-CO system. Experiments were performed in cold uniform supersonic flows of Ar, using an infrared – vacuum ultraviolet double resonance technique to measure absolute state-to-state rate constants and total relaxation cross sections for rotational energy transfer within the (v = 2) vibrational state of CO in collision with Ar at temperatures from 30.5 to 293 K. Close-coupling calculations were also performed using a recent potential energy surface (Sumiyoshi and Endo, 2015). Very good agreement is obtained between measured and calculated values
Collisional energy transfer from H atoms to CO(v=0, J≈2) has been studied at a collision energy of 1...
Rates for resonant vibrational and rotational energy transfer from the 001 state by CO/sub 2/ + CO/s...
International audienceAn accurate determination of the physical conditions in astrophysical environm...
Experimental measurements and theoretical calculations are reported for rotational energy transfer i...
Experimental measurements and theoretical calculations are reported for rotational energy transfer i...
Infrared-vacuum ultraviolet double resonance experiments have been implemented in the ultracold envi...
Cette thèse a été effectuée au sein de l’Institut de Physique de Rennes, et qui porte sur le transfe...
Rotational energy transfer is an important process in a variety of astrophysical environments includ...
Experimental measurements and theoretical calculations of state-to-state rate coefficients for rotat...
International audienceExperimental measurements and theoretical calculations of state-to-state rate ...
An extensive data set of 54 time-resolved pump-probe measurements was used to examine CO+He rotation...
A study has been made of the rate of vibrational excitation in shock heated CO for the temperature r...
A mid-infrared interference-free laser absorption technique for simultaneously measuring rotational ...
IR-IR double-resonance experiments were used to study the state-to-state rotational relaxation of CO...
AbstractWe have measured the rate constants for the reactions of Ar+ with CO2 and SO2 from 300 to 15...
Collisional energy transfer from H atoms to CO(v=0, J≈2) has been studied at a collision energy of 1...
Rates for resonant vibrational and rotational energy transfer from the 001 state by CO/sub 2/ + CO/s...
International audienceAn accurate determination of the physical conditions in astrophysical environm...
Experimental measurements and theoretical calculations are reported for rotational energy transfer i...
Experimental measurements and theoretical calculations are reported for rotational energy transfer i...
Infrared-vacuum ultraviolet double resonance experiments have been implemented in the ultracold envi...
Cette thèse a été effectuée au sein de l’Institut de Physique de Rennes, et qui porte sur le transfe...
Rotational energy transfer is an important process in a variety of astrophysical environments includ...
Experimental measurements and theoretical calculations of state-to-state rate coefficients for rotat...
International audienceExperimental measurements and theoretical calculations of state-to-state rate ...
An extensive data set of 54 time-resolved pump-probe measurements was used to examine CO+He rotation...
A study has been made of the rate of vibrational excitation in shock heated CO for the temperature r...
A mid-infrared interference-free laser absorption technique for simultaneously measuring rotational ...
IR-IR double-resonance experiments were used to study the state-to-state rotational relaxation of CO...
AbstractWe have measured the rate constants for the reactions of Ar+ with CO2 and SO2 from 300 to 15...
Collisional energy transfer from H atoms to CO(v=0, J≈2) has been studied at a collision energy of 1...
Rates for resonant vibrational and rotational energy transfer from the 001 state by CO/sub 2/ + CO/s...
International audienceAn accurate determination of the physical conditions in astrophysical environm...