1) atomic state
原子态
1.
Teleportation of an unknown atomic state in cavity QED;
用腔场QED技术隐形传送未知原子态(英文)
2.
Some methods to confirm atomic state of equivalent electrons coupled through L-S interaction;
确定同科电子L-S耦合原子态的几种方法
3.
Due to restriction of Pauli principle,amount of atomic state by congeneric electrons is more less than by non-congeneric electrons.
由于泡利原理的限制,同科电子组态构成原子态的数目较之非同科电子组态构成原子态的数目要少得多,因而研究同科电子组态构成原子态的问题显得复杂。
2) atom states
原子态
1.
The paper applies the method of the L-S coupling in the Pauli exclusion principle and gives a simple method to determine the atom states of equivalent double electrons through L-S interaction:Fold line along angle.
采用自旋与轨道相耦合的方法,在满足泡利不相容原理的条件下,给出了快速确定同科双电子原子自旋与轨道相耦合原子态的一种简单方法——对角折线法。
2.
Making use of L-S coupling, this paper discussed the simple method for determing atom states of equivalent electrons coupling.
使用L—S耦合,本文讨论了确定等效电子原子态的简单方法,该方法易为一般读者所掌握,且它的应用具有普遍性。
3) atomic states
原子态
1.
In this we have introduced the application of even formula in making certain equivalent double electrons′ atomic states and the generic way of making certain non-equivalent double electrons′ atomic states,and have got the quantificational connection between atomic states′ number and atomic orbital azimuthally quantum number.
偶数定则是确定非同科双电子形成的原子态的一般方法,根据偶数定则得到了二价原子的原子态数与原子轨道角量子数之间的定量关系;并用数学归纳法证明了有关结论。
2.
and the properties of these atomic states are discussed.
从任意两个角动量耦合的Land啨g因子出发,得出了各种耦合情况的Land啨g因子表达式,并对g因子一些特殊的取值及其原子态进行了讨论,尤其对g因子可能为负的原子态及其特征进行了详细的分析。
4) atomic states
原子状态
1.
The atomic states of Rh with hcp and bcc structure and primary liquid were also studied.
依据纯金属单原子理论(OA)确定了面心立方结构(fcc)金属Rh的原子状态为[Kr](4dn)4。
2.
The atomic states of this metal with hcp and bcc structures and liquid state were also studied.
依据纯金属单原子理论(OA)确定了面心立方结构(fcc)金属Pd的原子状态为[Kr](4dn)5。
3.
Using the one-atom theory(OA),the atomic states of rare metal Ir with fcc structure was determined as follows: (5d_n)~(4.
据纯金属单原子理论确定面心立方结构(fcc)贵金属Ir的原子状态为[Xe](5dn)4。
5) ground state atom
基态原子
1.
A novel atom valence shell electron quantum topological index AEI based on topological chemical principle and atom valence shell electron structure character with the help of hidden core graph of ground state atom valence shell electron was proposed in this paper, which appears uniquely to the ground state atom and has excellent structural selectivity.
在基态原子价壳层电子隐核图的基础上,基于拓扑化学原理以及原子价壳层电子结构特征,构建了原子价壳层电子量子拓扑指数(AEI),它对基态原子实现唯一性表征,结合原子价壳层电子平均化能(∑niEi/∑ni)等参数,建立了一套新的元素电负性标度:XN=-0。
2.
A novel connectivity index of valence shell electron energy levels for a ground state atom m VEI (m=0,1,2,.
构建了基态原子价壳层电子能级连接性指数 (mVEI) ,m =0 ,1,2 ,… ,它对基态原子实现唯一性表征 ,其中0 VEI,1VEI对原子具有良好的结构选择性 。
6) atomic configuration
原子组态
1.
At the same time,according to the BLD method and the bond energy,the most possible atomic configuration is determined.
001 0为多种原子组态中ΔDnα/nm最小的状态,nA键能EA=48。
补充资料:原子态
分子式:
CAS号:
性质:指电子在核外运动的波函数满足定态薛定谔方程,即呈不随时间变化的稳定的状态。它通常以电子组态表示。能量最低的原子态称基态,能量较高的称激发态。有时原子态又仅指原子的角动量态,它只确定原子的各种角动量值,不能完全确定其能量,因而不能确定其能级的位置。
CAS号:
性质:指电子在核外运动的波函数满足定态薛定谔方程,即呈不随时间变化的稳定的状态。它通常以电子组态表示。能量最低的原子态称基态,能量较高的称激发态。有时原子态又仅指原子的角动量态,它只确定原子的各种角动量值,不能完全确定其能量,因而不能确定其能级的位置。
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参考词条