The double photoionization of HCl molecules by synchrotron radiation has been studied in the energy range between 30 and 50 eV. The HCl2+ and Cl2+ product ions have been detected by a photoelectron–photoion-coincidence technique, while the H+ + Cl+ formation, which follows the double ionization of HCl, has been studied by photoelectron–photoion–photoion coincidence. The photon energy threshold for the production of HCl2+ ions has been found to be 35.4±0.6 eV, while for the dissociative channel leading to H+ + Cl+, it has been measured a threshold at 36.4±0.6 eV and a change in the slope of the cross-section energy dependence at 38.7±0.7 eV. The production of H + Cl2+ occurs with a threshold photon energy of 42.8±1.1 eV. These results appear to be in a good agreement with previous data by different experimental techniques and recent theoretical calculations performed by our laboratory.
The double photoionization of HCl: an ion-electron coincidence study
BRUNETTI, Brunetto Giovanni;CANDORI, Pietro;FALCINELLI, Stefano;PIRANI, Fernando;VECCHIOCATTIVI, Franco
2004
Abstract
The double photoionization of HCl molecules by synchrotron radiation has been studied in the energy range between 30 and 50 eV. The HCl2+ and Cl2+ product ions have been detected by a photoelectron–photoion-coincidence technique, while the H+ + Cl+ formation, which follows the double ionization of HCl, has been studied by photoelectron–photoion–photoion coincidence. The photon energy threshold for the production of HCl2+ ions has been found to be 35.4±0.6 eV, while for the dissociative channel leading to H+ + Cl+, it has been measured a threshold at 36.4±0.6 eV and a change in the slope of the cross-section energy dependence at 38.7±0.7 eV. The production of H + Cl2+ occurs with a threshold photon energy of 42.8±1.1 eV. These results appear to be in a good agreement with previous data by different experimental techniques and recent theoretical calculations performed by our laboratory.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.