原子与分子物理学报
原子與分子物理學報
원자여분자물이학보
CHINESE JOURNAL OF ATOMIC AND MOLECULAR PHYSICS
2007年
6期
1294-1296
,共3页
自电离%辐射衰减
自電離%輻射衰減
자전리%복사쇠감
autoionization%radiative decay
在自旋轨道劈裂阵模型下,考虑组态间的耦合,计算出类铜钽激光等离子体的跃迁组态的波长和对应的波数,通过组态平均分析了其自电离与辐射跃迁特性,得出相关的自电离系数和辐射衰减系数,这些参数为分析高离化钽激光等离子体的双电子复合过程提供了重要的理论依据.
在自鏇軌道劈裂陣模型下,攷慮組態間的耦閤,計算齣類銅鐽激光等離子體的躍遷組態的波長和對應的波數,通過組態平均分析瞭其自電離與輻射躍遷特性,得齣相關的自電離繫數和輻射衰減繫數,這些參數為分析高離化鐽激光等離子體的雙電子複閤過程提供瞭重要的理論依據.
재자선궤도벽렬진모형하,고필조태간적우합,계산출류동단격광등리자체적약천조태적파장화대응적파수,통과조태평균분석료기자전리여복사약천특성,득출상관적자전리계수화복사쇠감계수,저사삼수위분석고리화단격광등리자체적쌍전자복합과정제공료중요적이론의거.
The autoionization and radiative-transition probabilities are computed in the form of averages for whole configurations or subconfigurations of Cu-like tantalum. The compact formulas for these averages are valid in intermediate coupling, avoiding any diagonalization. For the transition subarrays suspected to be responsible for the pseudocontinuum, the average wavelengths are computed in the formalism of spin-orbit-split arrays. These parameters will provide a theory proof for analyzing dielectronic recombination process of highly ionized tantalum.
