碱金属原子

  • 网络Alkali metal atom;alkaline metal atom;alkali atom
碱金属原子碱金属原子
  1. 结果表明,吸附后表面原子趋向于理想位置,碱金属原子位于垂直于表面沿[001]方向横跨表面Ga原子的对称平面上。

    The results indicate that the surface atoms tend to the ideal configuration after adsorption , and the alkali atom lies at the symmetric plane perpendicular to the surface and crossing the surface Ga atoms along the [ 001 ] direction .

  2. 讨论了贯穿轨道对碱金属原子双层能级间隔的影响,得出一个双层能级间隔的波数公式;

    The energy levels of alkaline metal atom spectrum are obtained and the influences of quantum number loss on atomic energy level are also discussed .

  3. 碱金属原子和OH三级反应速率常数研究

    Rate Constants of Termolecular Reactions of Alkali Atoms with OH

  4. 碱金属原子与W,Pt表面的电荷交换

    Charge transfer between alkali atoms and w , pt surfaces

  5. 碱金属原子对大的βtot值起主要的贡献。

    Alkali-metal atom has major contribution to large β values .

  6. 根据新量子变换理论,结合创新的SU(1,1)Lie代数理论及SO(3)Lie代数理论,对含自旋&轨道相互作用的碱金属原子的量子力学问题进行系统的研究。

    Based on SU ( 1,1 ) Lie algebra and SO ( 3 ) Lie algebra , an exact quantum theory for alkali metal atom are presented .

  7. 碱金属原子量子亏损的微扰WKB计算

    Perturbation WKB method used to calculate quantum defect for alkali metal atom

  8. 玻色-爱因斯坦凝聚(BEC)在碱金属原子气体中的实验实现激发了许多新的研究领域。

    The experimental realization of Bose-Einstein condensates ( BECs ) of trapped alkali atomic clouds has stimulated active studies in many new regimes .

  9. 本文通过光学方法,在q×(20&140)keV能量范围内,研究了He~+和He~(2+)离子与碱金属原子Na碰撞中的靶激发过程。

    We have studied the target atom excitations in the collisions of He + and He2 + with Na in the energy range ot q ×( 20-140 ) keV by optical measurements .

  10. 提出一个新的点电荷模型,用以模拟碱金属原子中原子实的电场性质,并用微扰WKB法给出了量子亏损Δ的计算式。

    On the basis of a new point charges model , the calculating formula of the quantum defect for alkali metal atom is presented by means of the perturbation WKB method .

  11. 本文讨论了影响碱金属原子光谱精细结构强度分布的主要因素:①原子在单位时间内从m能级跃迁到n能级的几率Amn;

    The paper discusses the main factors that influence the intensity distribution of fine structure of alkali metal ′ s atomic spectra : ① the probability A mn of the atom that leaps from the m level to the n level in the unit time ;

  12. 1995年,在爱因斯坦理论预言70年之后,经过几代物理学家的不懈努力,首次在实验上实现了碱金属原子稀化气体的玻色-爱因斯坦凝聚(BEC),使原子处于与激光对等的地位。

    In 1995 , seventy years after Einstein theory , Bose-Einstein condensate ( BEC ) of alkali metals ' atoms was made in experiment for the first time in the world with physicists ' effort , which made atoms equal to laser in some extent .

  13. 碱金属原子双光子共振的能级与光谱

    Energy levels and spectroscopy of alkali metal atom with two-photon resonance

  14. 碱金属原子光电离截面的计算

    Photoionization Calculations for the Outermost Closed Shell of Alkali Metal Atoms

  15. 应用对称性研究碱金属原子的能级分裂

    Energy Level Fission of Usage Symmetry Research on Alkali Metal Atomic

  16. 碱金属原子的价原子具有两种能态。

    The valence atom of an alkali-metal atom has two states .

  17. 量子数亏损对碱金属原子能级的影响

    The influence of quantum number loss on alkaline metal atomic energy level

  18. 含氧有机物对碱金属原子吸收光谱吸光度影响规律的研究

    Influences of Oxygen-Bearing Organic Matter on Absorbance for Alkali Metal in AAS

  19. 碱金属原子高激发态的唯象势

    A New Phenomenological Potential for Highly Excited States of Alkali Metal Atom

  20. 碱金属原子主量子数的确定

    Determination of the Principal Quantum Number of Alkaline Metal Atom

  21. 广义拉盖尔多项式及碱金属原子径向方程的求解

    Generalized Laguerre polynomial and the solution of radial equation of alkaline-metal atom

  22. 碱金属原子能级的分裂规律

    The Fission Law of Alkaline Metal Atom Energy Level

  23. 碱金属原子光谱精细结构的相对强度

    The Relative Intensity of Fine Structure of Alkali Metal ′ s Atomic Spectra

  24. 对用光谱项作碱金属原子能级图的探讨

    The investigation on making atomic energy diagram of base metal using spectroscopic term

  25. 碱金属原子振子强度的核实极化效应

    Core Polarization Effect for Oscillator Strengths of Alkali Atoms

  26. 用微扰论推求碱金属原子精细结构能级

    Derivating the Energy Level of Fine Structure of Alkaline Metal Atom in Perturbation Theory

  27. 碱金属原子的精确量子理论

    An Exact Quantum Theory for Alkali Metal Atom

  28. 主要内容如下:1.碳纳米管吸附碱金属原子。

    Conclusions are as follows : 1 . Alkali metal adsorption on carbon nanotubes .

  29. 碱金属原子光谱的量子力学分析

    Quantum Mechanics Analysis of Alkaline Metal Atom Spectrum

  30. 类氢及碱金属原子激发态寿命的半经典计算公式

    Semiclassical formula for the radiative lifetimes of excited states of the hydrogenlike and alkali metal atoms