内壳层

  • 网络inner shell;inner-shell
内壳层内壳层
  1. 原子内壳层光电过程的电子关联作用

    Correlation interaction in atomic inner shell photoelectric effect

  2. 研究发现,当核间距变大时,除了HOMO轨道对谐波发射贡献外,内壳层轨道的贡献也越来越大。

    In the case of larger internuclear distance , the contribution to HHG from the inner shell will become larger and larger , apart from that from HOMO orbits .

  3. P和α引起Al原子内壳层多电离的研究

    Multiple inner-shell ionization of aluminum by proton and alpha particle

  4. 实验结果表明,低速高电荷离子与金属表面原子相互作用可有效地激发靶原子或靶离子内壳层电子而发射X射线。

    The results show that inner shell electrons of target atoms are excited , and X-rays ( emitted ) .

  5. 内壳层旁观洞态对ZnⅡKα和Kβ谱线的影响

    Study on the influence of inner-shell spectator holes to the K_ α and K_ β spectra of Zn ⅱ ions

  6. CⅡ离子1s内壳层激发态的结构和衰变特性的理论研究

    Theoretical investigation on level structure of 1s inner-shell excited state and the related decay property of C ⅱ ion

  7. CsⅣ离子4d内壳层激发态衰变过程的相对论理论研究

    The theoretical study on the decay processes of the 4d core excited states of Cs ⅳ

  8. 为了利用SFA解释O2的内壳层的电离,对偶极矩阵元进行了修正。

    In order to explain the ionization of inner-shells of O2 , we modify the dipole-moment in the LG SFA formulas .

  9. X射线荧光层析技术是利用内壳层电子跃迁所发出荧光辐射,来测定样品中的元素含量,获取样品内部的结构信息。

    The X-ray fluorescence tomography method is capable of virtually estimating the concentration of elements and obtaining the inner structure of materials by measuring the intensity of fluorescence which is emitted by the inner shell electron .

  10. 利用多组态DiracFock方法研究了内壳层旁观洞态对ZnⅡKα和Kβ线强度比值的影响。

    By using Multi-Configuration Dirac-Fock method , a systematic theoretical study on the influences of the inner-shell spectator holes to the intensity ratio of the K_ α and K_ β X-ray of zinc ions has been carried out .

  11. 表明:内壳层电离的TDCS呈现出一强的recoil峰,对于某些参量,recoil峰甚至高于binary峰。

    The distinguishing feature noted in TDCS structure is the presence of intense recoil peak that for certain parameters is even larger than the binary peak , an unusual feature for the outer-shell ionization process .

  12. 作为本模型的一个例子,我们得出了源OH/IR17.7-2.0具有双壳层结构的特点,其中一个尘埃壳层的温度约为800K(内壳层),另一个壳层的温度约为110K(外壳层)。

    As an example of this model , the author got the result that source OH / IR 17.7-2.0 has two dust shells , one with the temperature about 800k ( inner shell ) and the other with about 110k ( outer shell ) .

  13. 类钠Ar~(7+)离子内壳层双电子复合

    Inner Shell Dielectronic Recombination of Na like Ar 7 + Ion

  14. 电子碰撞原子内壳层电离截面的实验研究

    Study of the Measurement of Atomic Inner-Shell Ionization Cross-sections by Electron Impact

  15. 中子星内壳层的物态方程和质子丰度

    Equation of State and Proton Ratio on the Inner Shell Layer of Neutron Stars

  16. 原子内壳层双光子衰变的相对论效应和屏蔽效应

    Two-photon transitions in atomic INNER-SHELLS for Xe & reletivistic effect and atomic screening effect

  17. 用迈克尔逊干涉仪测量单层薄膜的厚度和折射率原子内壳层电离截面研究中薄靶厚度的卢瑟福背散射分析

    Thickness Determination of Thin-film Samples Used in Atomic Innner-Shell Ionization Measurement by Rutherford Backscattering Spectrometry

  18. 内壳层跃迁机制是实现超短波长激光的一种很有潜力的方案。

    Employing the inner-shell transition mechanism is a potential way to obtain ultra-short wavelength lasers .

  19. 蒙特卡罗方法在低能电子致原子内壳层电离截面测量中的应用

    Application of Monte Carlo Simulations in Measurement of Atomic Inner-shell Ionization Cross-sections by Low-energy Electron Impact

  20. 讨论了键合原子内壳层结合能和它的分子环境的关系。

    The relations of the core binding energy of bonded atoms and their molecular enviroment are discussed .

  21. 论分子中键合原子的性质&Ⅰ基团电负性和键合原子的内壳层结合能

    THE NATURE OF BONDED ATOM IN MOLECULE ⅰ Group Electronegativity and Core Binding Energy of Bonded Atom

  22. 研究了内壳层电子电离对截面和速率系数的影响。

    The influ - 'ences of inner-shell electron ionization on cross sections and rate coefficients have been researched .

  23. 复杂原子的光电离过程及其内壳层洞态的衰变过程的理论研究

    Theoretical Study on Photoionization Processes of Complex Atoms and Decay Processes of Hollow Atoms with Holes in Inner Shell

  24. 低能电子碰撞原子内壳层电离截面测量的研究在理论和实际应用方面都具有重要意义。

    The study of atomic inner-shell ionization cross-sections by low-energy electron impact is significant in both theoretical researches and practical applications .

  25. 它广泛地应用于薄膜物理、材料科学、环境科学等各个领域。本文基于背散射分析技术,对纳米晶固氦材料和电子碰撞原子内壳层电离截面实验研究中的一些问题进行了探讨。

    It is simple , reliable , rapid and nondestructive and is widely used in many research fields , such as thin film physics , material science and environment science .

  26. 稀土原子是一类具有未填满或活跃内壳层的复杂原子,并在新型光源的开发、激光分离同位素、天体物理和自电离激光器等许多领域具有重要的应用价值。

    The rare-earth atom is a sort of complex atoms with an unfull-filled inner shell . They can play an important role in development of novel light sources , laser isotopic separation , observation of the universe , and autoionization laser .

  27. 本文主要研究了球形量子点量子阱结构(球核/内壳层/外壳层分别非极性/极性/非极性半导体材料构成)中的振动本征模和电子声子相互作用的问题。

    In this paper , we have studied the vibrational eigenmodes and the electron-phonon interaction in a quantum dot-quantum well ( QD-QW ) structure which is formed by a quantum dot composed of a non-polar semiconductor coating with a polar semiconductor spherical slab , embedded in another non-polar surrounding medium .

  28. 原子内禀壳层结构理论为度量孤立原子中处于束缚态下电子排布的壳层结构,提供了清晰的物理图像,为描述原子的壳层结构提供了一种新方法和新理论。

    This theory provides a kind of new method for describing the atomic shell structure .

  29. 原子内禀壳层结构理论

    Theory on Atomic Intrinsic Shell Structure

  30. 含有铁、钯、铂和稀土元素的化合物呈现强顺磁性,因为这些元素的原子有不完全的内电子壳层。

    Compounds containing iron , palladium , platinum , and the rare-earth elements exhibit strong paramagnetism because they have atoms with some incomplete inner electron shells .