laser isotope separation

英 [ˈleɪzə(r) ˈaɪsətəʊp ˌsepəˈreɪʃn] 美 [ˈleɪzər ˈaɪsətoʊp ˌsepəˈreɪʃn]

网络  激光同位素分离

化学

双语例句

  1. Molecular laser isotope separation
    分子激光同位素分离
  2. A new method is presented to measure the atomic flux for atomic vapor laser isotope separation.
    在铀同位素分离领域中,价值函数和分离功率是非常重要的物理量。
  3. Atomic vapour laser isotope separation
    原子蒸气激光同位素分离
  4. Experiment on Polarization Selectivity in Gd Atomic Vapor Laser Isotope Separation
    原子蒸气激光法分离钆同位素的偏振选择性实验
  5. On study of physico-chemical gas dynamics in laser isotope separation
    分子法激光分离同位素中的物理化学气体动力学研究
  6. Research progress of laser isotope separation in China
    我国激光分离同位素的研究进展
  7. Investigation of Jon extraction in laser isotope separation
    激光同位素分离中离子取出过程的研究
  8. Because of theory unique points and cheap maintenance cost, TEA CO_2 Laser is a very ideal illuminant for infrared multiphoton isotope separation, has gotten high separation factor in single-wavelength multiphoton isotope separation experiment.
    TEACO2激光器因其独特的特点和低廉的维护费用,对于红外多光子分离同位素来说是一种很理想的光源,在单频红外多光子离解分离同位素的实验中取得了较高的分离系数。
  9. Selectivity and excitation rate of laser isotope separation can be enhanced by using the coherent selective Doppler-free two-photon excitation with intermediate resonant level.
    利用具有中间共振能级的无多普勒双光子相干选择激发来提高激光同位素分离的选择性和激发速率。
  10. Ion extraction from laser-induced plasma is one of the key problems in atomic vapor laser isotope separation ( AVLIS).
    离子引出的研究在原子蒸气法激光同位素分离(AVLIS)工程中具有重要意义,离子引出时间直接关系到整个系统的离子引出效率。
  11. In those fields of Laser Isotope Separation ( LIS), laser chemistry, laser guide star ( man made star) technology, etc, in order to increase the utility efficiency of the pulse laser, to stretch the pulse duration is needed.
    在激光分离同位素、激光化学、激光导星(人造星)技术等领域,为了提高脉冲激光的利用效率,需将激光脉冲展宽。
  12. The atomic density and velocity distribution in the laser excitation zone is very important for the atomic vapor laser isotope separation ( AVLIS).
    在激光同位素分离中,激光作用区内原子的密度和速度分布对分离过程有重要影响。
  13. To explore more efficient ion extraction methods used in atomic vapor laser isotope separation ( AVLIS), RF resonance method of ion extraction is studied by theory and PIC simulation.
    为了探索用于AVLIS的更为有效的离子引出方法,对等离子体的RF共振离子引出方法进行了理论研究,用PIC方法对其进行了模拟。
  14. The dynamic process for ion extraction in laser isotope separation is studied.
    本文研究了激光同位素中离子取出的动力学过程。
  15. This paper reports an application of Model Base Management system taken logical as basis in Atomic Vapor Laser Isotope Separation.
    本文报导了以逻辑为基础的模型库管理系统在原子蒸汽激光分离铀同位素(AVI,IS)参数设计中的应用。
  16. Laser Enhanced Catalytic Oxidation of NH_3 and its Application in Isotope Separation of Nitrogen
    氨的激光复相催化氧化反应和氮同位素的分离
  17. The characteristics of the RF ( radio frequency) resonance method of ion extraction were analyzed to improve atomic vapor laser isotope separation ( AVLIS) by using the PIC MCC code to simulate the RF resonance.
    为较全面地了解RF(radiofrequency)共振离子引出方法的特性,使之更好地用于原子蒸气激光同位素分离(AVLIS),用PIC-MCC方法对其进行了模拟。
  18. The density, velocity and temperature distribution of the atomic flow are very important parameters in atomic vapor laser isotope separation ( AVLIS).
    在原子法激光同位素分离工程中,电子枪加热金属铀产生的原子蒸气的密度、速度以及温度等宏观量分布特性是非常重要的参数。
  19. In this paper, the development process of CO_2 laser is reviewed, particularly the study background and actuality of TEA CO_2 laser. The application of CO_2 laser in industry processing, medical treatment, wireless optical communication and isotope separation is introduced briefly.
    本文回顾了CO2激光器的发展历程,尤其是TEACO2激光器的研究背景、现状,并简要介绍了CO2激光器在工业加工、医疗卫生、无线光通信和同位素分离等方面的应用。
  20. In this paper, a short outline of general principles and methods of laser isotope separation is discussed. A general review is made on methods and progress of uranium isotope separation.
    本文概述了激光分离同位素的一般原理和方法,并对分离铀同位素的方法和进展作了评述。
  21. Calculation of 3-D atom's distribution function in atomic vapor laser isotope separation
    激光原子法同位素分离中三维原子分布函数的计算
  22. Study on ion extraction characteristics is of great significance for Atomic Vapor Laser Isotope Separation ( AVLIS).
    对于原子法激光分离同位素(AVLIS),离子引出的特性研究具有十分重要的意义。
  23. The application of NP-type chelate resin beads in the isotopic measurement of uranium is a new creative achievement. It has been used in the depletion test of uranium-atomic vapor laser isotope separation.
    NP型螯合树脂珠在树脂珠法铀同位素分析中的使用是一个创新成果,该方法在原子法激光铀同位素分离贫化试验中得到了应用。
  24. Technology of atomic flow produced through metal evaporation is widely utilized in such fields as material science, superconduct, optical device, especially in atomic vapor laser isotope separation ( AVLIS).
    金属蒸发产生原子束技术在材料科学、超导及光学器件,特别是原子激光同位素分离中得到充分应用。
  25. High temperature evaporation of molten cavity heated by electron beam in crucible is one of the most important processes in the uranium cycling system in atomic vapor laser isotope separation ( AVLIS).
    电子枪加热坩埚熔池高温蒸发是原子蒸气激光同位素分离(AVLIS)铀循环系统的一个重要环节。
  26. Atomic-Vapor Laser Uranium Isotope Separation
    原子法激光分离铀同位素
  27. Traditional isotope separation techniques include gas-diffusion, gas-centrifuge, etc., while laser isotope separation ( LIS) method offers us a separation technique with higher selectivity and lower energy consumption.
    传统同位素分离方法主要包括气体扩散法,气体离心法等。随后激光分离法的发展为人们提供了一种新型的高选择性,低能耗的同位素分离技术。
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