1) core-excited state
内壳高激发态
2) cove-excited state
内壳激发态
3) inner-shell excited state
内壳层激发态
1.
Theoretical investigation on level structure of 1s inner-shell excited state and the related decay property of C Ⅱ ion
CⅡ离子1s内壳层激发态的结构和衰变特性的理论研究
5) Highly-excited state
高激发态
1.
We caculated the highly-excited states with J =1 and odd parity of the Beryllium isoelectronic sequence by using the eigenchannel quantum defect theory (EQDT).
应用本征通道量子亏损理论(EQDT),计算了类Be原子体系(Be-MgⅨ)的高激发态结构(奇宇称,J=1),得到了表征高激发态性质的EQDT参量及2pns,2pnd和2snp组态的全部Rydberg能级位置及通道混合系数。
2.
We calculated the highly-excited states with J = 0, 1 and 2 and even parity of the beryllium isoelectronic sequence by using the eigenchannel quantum defect theory (EQDT).
本文应用本征通道量子亏损理论(EQDT)系统地研究了J=0,1,2,偶宇称Be等电子序列(BeI—SiⅪ)的高激发态结构。
3.
On the basis of the eigenchannel quantum defect theory (EQDT) we calculated the highly-excited state structure of 3sns (J= 0) Rydberg series for the ionic A1 (?) .
本文利用本征通道量子亏损理论方法计算了一价铝离子3sns(J=0)里德伯系列的激发态结构,给出了高激发态结构的具体数值结果,并讨论了干状态的影响。
6) highly excited state
高激发态
1.
Calculation of energy levels of alkali-metal-atoms highly excited states by using Hammerling exchange potential;
用Hammerling交换势计算碱金属原子高激发态能级
2.
A new phenomenological potential for highly excited states of alkali metal atom is suggested.
对碱金属原子的高激发态提出了一个新的唯象势,并用PWKB法给出了量子亏损(因而能级)的计算公式。
3.
The investigation of highly excited states of the rare-earth atom is not only an important subject in the atomic physics, astrophysics and plasmas, but also helpful for the related scientific and technical fields, such as laser isotope separate, development of new laser and lasing without population inversion etc.
开展稀土元素高激发态的研究不仅是原子物理学、天体物理学、等离子体物理学等领域的重要课题,而且在许多高科技领域也有广泛的应用价值,如激光分离同位素、新型激光器的开发以及自电离无反转光放大等。
补充资料:超激发态
原子或分子的激发能高于电离电位而没有导致电离的一种瞬时存在的激发态,在原子或分子的右上角加≠表示。超激发态是一个不稳定状态,处于超激发态的分子具有大大超过分子中化学键离解能的能量,极易解离成分子碎片,这些分子碎片中必有一个处在激发态:AB≠─→A*+B。超激发态也可能通过预电离分子来衰减能量:AB≠─→AB++e。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条