atomic energy levels
- 网络原子能级;现象可用于原子能级
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Effect of Zeeman Inter combination of Atomic Energy Levels
原子能级的Zeeman互组合效应
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An investigation on the fine structure of atomic energy levels by making use of the principles of grating diffraction
用光栅衍射研究原子能级的精细结构
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A derivation to fine structure formula of atomic energy levels by elementary method
用初等方法导出原子能级的精细结构公式
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The intensity is determined be a felicitous arrangement of the atomic energy levels .
这一强度取决于原子能级的适当排列。
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Energy Expressions of the Many-Electron Polyatomic Molecules Based on the Atomic Energy Levels
基于原子能级的多电子多原子分子的能量表达式
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The matrix elements of energy operator for calculation of complex atomic energy levels I the noh-relativistic theory
计算复杂原子能级时能量算符的矩阵元Ⅰ非相对论性理论
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Because of their big polarizability ( - n7 ), Rydberg atoms are very sensitive to external field . Hence , we can use the external field to control the atomic energy levels and the interaction between them .
极化率大(~n7),极易受到外场的影响,可以通过外场调节原子的能级以及原子间的相互作用。
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Quantity estimate of double atomic molecular energy levels
双原子分子能级差的数值估算
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The successful applications to resonance elastic light scattering and resonance Raman scattering by atoms lead to a universal approximation formula of atomic energy & levels of atoms and atomic ions formed by gradual ionization of valence electrons of their atoms .
对原子的弹性光散射和Raman散射的成功应用推出了原子和原子的价电子逐级电离所形成的离子的所有原子能级的普适近似公式。
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THz-wave generation based on maximal atomic coherence between energy levels which are forbidden transition provides the promising source with high energy output and high conversion efficiency .
基于原子在禁戒跃迁能级间的最大相干性频率下转换产生THz波的方法具有高能量、量子转换效率高等特点。
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The theory of THz-wave generation from maximal atomic coherence between energy levels which are forbidden transition in alexandrite is deduced based on the enhancement of nonlinear polarizability in the process of electromagnetically induced transparency .
基于电磁感应透明过程中非线性极化率增强理论,推导了在紫翠宝石晶体中基于原子在禁戒跃迁能级间的最大相干性频率下转换产生THz波的理论。
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Analytic solution for the equation of interaction between light and atomic system of two energy levels
光与二能级原子系统相互作用方程的解析解
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Investigation of atomic spectra yields atomic energy levels .
原子光谱的研究能给出原子能级信息。
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Any element-specific physical signal can be exploited for the identification of atoms in the material , these are the atomic mass , electronic energy levels , nuclear spin and even the local electronic density of states at surface , etc.
任何具有元素特征的物理信息,包括原子量、电子的能级、原子核自旋,甚至局域的电子态密度等都可以用来做材料的化学分析。