电子靶

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  • Electron target;electric target
电子靶电子靶
  1. 资格赛可以使用纸质靶纸或电子靶,决赛必须使用国际射联(ISSF)指定的电子靶。

    Qualifying competition may use paper target or electronic target , while electronic target specified by ISSF must be used in finals .

  2. 舰炮对海射击拖曳式电子靶

    Towed Electronic Target for Vessel-Based Gunfire Surface Drills

  3. 声定位靶是一种电子靶,它可以用于自动记录超音速弹丸穿过靶平面的座标,声定位靶的定位精度取决于许多因素。

    The Acoustic Position Indicator ( API ) is an electronic target with which the X and Y co-ordinates of a supersonic projectile are recorded automatically when it passes through the sensor plane .

  4. 有些电子被靶挡住后,它们的动能便直接转化为X射线。

    Some of the electrons are stopped by the target and their kinetic energy is converted directly to X-radiation .

  5. 该文结果对早期NCRP-51报告的结果有重要的改进,对于现代产生X射线的电子加速器靶的设计具有参数作用。

    The results provide an important addition to NCRP Report No. 51 , offering a series of specific parameters for the design of targets in electron accelerators .

  6. 高性能电子溅射靶的制备

    Preparation of electronic sputtering target with high performance

  7. 硅电子倍增靶视象管

    Silicon electron multiplier targetvidicon

  8. 计算结果表明,随着入射角的增大,靶材表面层单位质量中沉积的能量增大,电子在靶材料中穿透深度减小,能量沉积系数减小,相应的束流传输系数也减小;

    The calculation results indicate that the deposition energy in unit mass of material surface layer increases with the rise of electron beam incident angle , and electron beam with low incident angle ( closer to normal incident angle ) penetrates deeper into the target material .

  9. X射线是在高能电子击中固体靶时产生的。

    X-rays were produced when energetic electrons hit a solid object .

  10. He~(2+)离子和H2,O2分子碰撞过程中电子俘获和靶激发的发射截面

    Double-electron capture into excited states in collision between he ~ ( 2 + ) and h_2 , o_2

  11. 基于PSD的电子激光标靶的研究

    Research of a PSD-based Electric Laser System

  12. 介绍了利用电子轰击核靶原子K壳层电离截面的一种计算方法。

    This article is related to a calculating method of atomic ionization cross section on K - shell when bombarding a nuclear target with electron .

  13. 用它测量了强流电子束在靶上能量沉积产生冲击波的速度,由光电倍增管探测连续波He-Ne激光束照射靶的后表面的反射光束。

    He-Ne laser beam irradiates the rear surface of the target and the reflected light is detected by a photomultiplier .

  14. 本文对Vidicon型摄象管中电子束着靶时的自变尖效应及其对电子束分辨能力的影响进行了计算机数值分析。

    In this paper the self-sharpening effect of electron beam landing on the target in a vidicon and its influence on resolution of electron beam have been digitally analyzed with computer .

  15. 利用REB电子轰击阳极靶产生的厚靶韧致辐射的零角度测量,确定束电子能量的径向分布,从而判断REB的居中性和能量的均匀性。

    The zero angle measurement of the thick target bremsstrahlung produced by the REB bombarded anode target can be used to determine the electron energy radial distribution , and to judge the REB medial property and the energy even distribution .

  16. 强流相对论电子束与靶物质相互作用

    Interaction of an intense relativistic electron beam with the target matter

  17. 内光电导靶摄象管中电子束着靶时的自变尖效应

    Self-sharpening effect of electron beam landing on target in vidicon

  18. 俄歇电子发射核素靶向治疗中细胞平均吸收剂量的计算

    Mean absorbed dose calculation at cellular level for targeted radiotherapy using Auger-electron-emitters

  19. 电子轰击硅靶光电子特性的光学模拟

    Optical Analog of Photoelectronic Characteristics of The Silicon Target Bombarded by Electrons

  20. 电子束读出靶面信息的模型为电容放电模型。

    And the signal-readout model is capacitor discharge model .

  21. 动态应变是电子束辐照靶结构产生结构响应中的一个重要力学参数。

    The dynamic strain is an important mechanic parameter of the structural response produced in the target structure bombarded by electron beam .

  22. 喷射冲量是电子束辐照靶结构时引起其结构响应的加载条件。

    The blowoff impulses is the condition of applied loads of the structural response in-duced in the target structures bombarded by electron beam .

  23. 利用MCNP4C程序模拟电子打击钨靶产生韧致辐射、射线与物质的相互作用,得到了材料分类曲线。

    The bremsstrahlung generated by the electron beam impinging the tungsten target and the interactions between the X-rays and the materials were simulated using the MCNP4C code .

  24. 本文用经典理论、双流不稳定性理论及磁增强效应,计算了强流相对论电子束在靶物质中的射程及沉积功率。

    The classical plasma theory , two-stream instability theory and magnetic enhancement effect have been used to calculate the range and deposition power of an intense relativistic electron beam in the target matter .

  25. 通常低能医用加速器靶的设计遵从厚靶原则,即采用厚度等于或大于电子射程的靶,使靶后无电子污染。

    Generally , the design of the target used in the medical electron accelerator follows the thick-target rule , that is , using a target thicker than the electron range to make almost no electrons penetrating out of the target .

  26. 12MeV强流脉冲电子束对钽靶的破坏研究

    Destruction Study of Tantalum Target Impacted by 12 MeV Electron Beam

  27. 强流电子束在薄靶中的能量沉积

    Intense electron beam energy deposition in thin foil targets

  28. 电子束辐照圆环靶产生动态应变的实验研究第七层:圆

    Experimental studies of the dynamic strain produced in the circular ring targets bombarded by electron beam

  29. 强脉冲电子束轰击金属靶将产生瞬态高温等离子体,从这种等离子体中飞出的金属离子沉积在附近的衬底上,从而制得Co/Ti系和其他多种金属多层膜。

    The energetic metal ions ejected from such plasma are deposited on the surface of the near-by substrate . The multilayer films of Co / Ti system and other metals have been prepared .

  30. 本文叙述了近年来我们在闪光二号装置上进行电子束辐照圆环靶产生动态应变的实验研究。

    In this paper , the experimental studies of the dynamic strain produced in the circular ring targets bombarded by electron beam on ' FLASH - ⅱ ' equipment during the recent years are described .