In the framework of quantum defect theory, we study super-excited states of F2 molecules which can dissociate into F^+ (^3P2,1,0) and F^-(^1 So) ion-pair. Based on our calculation, we present a vibrational resolv...In the framework of quantum defect theory, we study super-excited states of F2 molecules which can dissociate into F^+ (^3P2,1,0) and F^-(^1 So) ion-pair. Based on our calculation, we present a vibrational resolved assignment of the high precision photofragment yield spectra for F^- from the F2 ion-pair production.展开更多
基金Supported by the Ministry of Science and Technology and the Ministry of Education of China, the Key Project of the Ministry of Education of China (No 306020), the National Natural Science Foundation of China under Grant No 10574162, the National High-Tech ICF Committee in China, the National Basic Research Programme of China under Grant Nos 2001CB610508 and 2006CB921408, and the Yin-He Super-computer Center, Institute of Applied Physics and Mathematics, Beijing, China,
文摘In the framework of quantum defect theory, we study super-excited states of F2 molecules which can dissociate into F^+ (^3P2,1,0) and F^-(^1 So) ion-pair. Based on our calculation, we present a vibrational resolved assignment of the high precision photofragment yield spectra for F^- from the F2 ion-pair production.
