1) nuclear isomer transition
同质异能跃迁
2) isomeric transi-tion chemistry
同质异能跃迁化学
3) isomeric transition
同核异能跃迁
1.
The calculation of γ-ray emission probability (absolute intensity) for isomeric transition is described on the basis of intensity balance of γ-transition.
文章涉及基于γ跃迁强度平衡的同核异能跃迁γ射线强度的计算方法,并以实例进行说明。
2.
How to calculate the γ-ray emission probability (absolute intensity) for isomeric transition decay is briefly introduced.
简要介绍了同核异能跃迁衰变的γ射线强度的计算方法 ,并以实例进行说明 ,还给出了有关的物理自洽检验方法及其讨论 。
4) transition energy
跃迁能
1.
Dipole transition energy and oscillator strengthof the 1s~22s-1s~2np for Mn~(22+)ion;
Mn~(22+)离子1s~22s-1s~2np的偶极跃迁能和振子强度(英文)
2.
This paper discusses the colors of the halides of Cu(Ⅰ) and Ag(Ⅰ) from the points of the electron transition energy lever, ion polarization, ion deformability and ion polarization energy.
从电子的跃迁能级、离子极化作用、离子变形性、离子极化能几方面讨论了Cu(Ⅰ)Ag(Ⅰ)卤化物的颜色问题。
3.
The transition energy of 1s23d-1s2nf(4≤n≤9)and fine structure splitting of 1s2nf(n≤9)states for lithium-like Mn22+ ion are calculated by using the full-core plus correlation method.
用全实加关联方法计算了类锂Mn22+离子1s23d-1s2nf(4≤n≤9)的跃迁能和1s2nf(n≤9)态的精细结构。
5) transition energy
跃迁能量
1.
The ground state energy and the transition energy(from ground state to first excited state) of the free polaron in a GaN/Al_(0.
7N)材料中自由极化子的能级,给出基态能量和基态到第一激发态跃迁能量随抛物量子阱宽度变化的函数关系。
6) photoluminescence energy
光跃迁能
1.
The results show that when there is hydrogenic-like impurity in the center of QDs,the exciton ground-state energy and the photoluminescence energy are reduced,and the exciton binding energy and the stability of exciton state ar.
结果表明:量子点中心的类氢杂质使激子的基态能降低,结合能升高,Q D系统的稳定性增强,光跃迁能减小;杂质位于量子点上界面时,激子的基态能最小,结合能最大,系统最稳定;随着杂质从量子点的上界面沿着z轴移至下界面,激子基态能和光跃迁能增大,结合能减小。
补充资料:同质异能跃迁
同质异能跃迁
物理学术语。放射性核素衰变方式之一。由各种衰变产生的激发子核可以维持相当长的时间才退激,因而这种子核可以看作是一种单独的核素,其本身又可以作为母核,通过γ跃迁衰变成原子序数和质量数都和母核相同、只是能级不同的子核,故是一种同质异能核素之间的变化,这种γ跃迁征特称为同质异能跃迁。同质异能跃迁在放射性核素显(成)像中应用非常多,最常见的例子是99mTc→99Tc+γ、111mIn→111In+γ。
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