引用本文:
Chuan Pu LIU, Xiang Yang LI, Jing Zhong GUO, Yue Shu GU, Xue Chu LI, Guan Lin SHEN, Hong CHEN. The Effect of the CO(a3П) Vibrational Population on the CO(a3П)+NO(X3П) Energy Transfer Reaction[J]. Chinese Chemical Letters,
1996, 7(9): 855-858.
Citation: Chuan Pu LIU, Xiang Yang LI, Jing Zhong GUO, Yue Shu GU, Xue Chu LI, Guan Lin SHEN, Hong CHEN. The Effect of the CO(a3П) Vibrational Population on the CO(a3П)+NO(X3П) Energy Transfer Reaction[J]. Chinese Chemical Letters, 1996, 7(9): 855-858.
Citation: Chuan Pu LIU, Xiang Yang LI, Jing Zhong GUO, Yue Shu GU, Xue Chu LI, Guan Lin SHEN, Hong CHEN. The Effect of the CO(a3П) Vibrational Population on the CO(a3П)+NO(X3П) Energy Transfer Reaction[J]. Chinese Chemical Letters, 1996, 7(9): 855-858.
The Effect of the CO(a3П) Vibrational Population on the CO(a3П)+NO(X3П) Energy Transfer Reaction
摘要:
The improved beam sources CO (a, v≤4) and CO (a, v≤3) are produced in a beam-gas experiment by collision of CO2 with He (22 S) and Ar (3P0, 2) respectively. The energy transfer reaction of CO (a) with NO (x) mainly give NO (A, v). The vibrational distribution of CO (a) has a considerable effect on that of NO (A, v) and the vibrational distributions of NO (A, v) follow the energy gap law and the Franck-Condon (F-C) principle.
English
The Effect of the CO(a3П) Vibrational Population on the CO(a3П)+NO(X3П) Energy Transfer Reaction
Abstract:
The improved beam sources CO (a, v≤4) and CO (a, v≤3) are produced in a beam-gas experiment by collision of CO2 with He (22 S) and Ar (3P0, 2) respectively. The energy transfer reaction of CO (a) with NO (x) mainly give NO (A, v). The vibrational distribution of CO (a) has a considerable effect on that of NO (A, v) and the vibrational distributions of NO (A, v) follow the energy gap law and the Franck-Condon (F-C) principle.
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