高能粒子

gāo néng lì zǐ
  • high-energy particle;energetic particle
高能粒子高能粒子
高能粒子[gāo néng lì zǐ]
  1. 引起射电爆发并使电离层产生三级扰动.但未有与之相应的高能粒子流和X射线暴的记录。

    But Neither energetic particle flux nor X-ray bursts were recorded corresponding to this event .

  2. 资源一号卫星星内高能粒子探测器

    Energetic Particle Detector on Board ZY-1 Satellite

  3. 设计了一种能经受高能粒子辐照的GaAs微条粒子探测器。

    A design of the GaAs microstrip particle detectors which can stand referring and radiating by very high energy particles is described .

  4. 当高能粒子进入慢化器后,会在慢化器中发生散裂反应与(n,2n)核反应,因此,反射体可以大大提高中子通量;

    The reflector can increase the neutron flux obviously and the main processes of the neutron yield in reflector are spallation reaction induced by energetic hadrons and ( n , 2n ) reaction .

  5. 闪烁体用于X射线和γ射线等高能粒子探测,在核医学、高能物理、地质探矿、安全检查和材料探伤等领域有着广泛的应用。

    Scintillators are ideal candidates used in detectors for X-ray ,γ - ray and high energy ray , and have been widely applied in nuclear medicine , high energy physics , geologic survey , security inspection and material flaw detection .

  6. Mg-Li合金具有比强度、比刚度高和减震性能好,以及电磁屏蔽性能优良,抗高能粒子穿透能力强等优点;

    It has high Specific strength and stiffness , good shock absorption property , and electromagnetic shielding , can antis penetrate of high-energy particles .

  7. 北京正负电子对撞机(BEPC)是我国第一次建造的高能粒子加速器。其储存环真空系统为周长240.4米的跑道形圆形。

    The Beijing Electron Positron Collider ( BEPC ) project was first made in 1988 , The circumference of its storage ring vacuum system is 240.4m .

  8. 描述了一种适用于高能粒子加速器周围杂散辐射场测量的改进型Andersson-Braun中子雷姆仪的原理与结构。

    This paper describes the principle and construction of a modified Andersson-Braun ( A-B ) neutron rem counter which is used for the stray radiation field of high energy accelerator .

  9. 首先利用高能粒子输运程序NMTC/JAM计算了入射质子能量、靶的材料、形状、尺寸以及靶与慢化器耦合对中子通量的影响。

    At first , the effect of the target on the neutron flux is discussed to determine the optimal proton energy , target material , shape and dimension by using the high-energy particle transport code NMTC / JAM .

  10. 根据高能粒子辐射固体阻止理论采用Monte-Carlo方法计算了高能质子在CCD中导致晶格原子位移而产生的初始空位密度分布,结合Janesick的质子辐照实验结果,从而得到初始空位中稳定缺陷的产生率。

    Based on the theory of the energetic particles ' stopping in solids the initial vacancy distribution in CCD is computed with Monte-Carlo method . And with the help of the experimental results acquired by Janesick et al , the generating rate of stable defects is computed .

  11. 电弧中存在大量高能粒子(2~20eV)和臭氧,并伴随着紫外线辐射,这三种因素的共同作用能够将苯环、芳香烃类大分子有机物破碎,并催化氧化及解离。

    There are a great deal of high energy particle ( 2 ~ 20eV ), ozone and ultraviolet radition in the arc and under the effect of this three factors , benzene loop and aroma hydrocarbon great molecule organic substance were broken up , oxidated and ionized .

  12. 宇宙线高能粒子与液体闪烁体的核相互作用

    Nuclear interactions of cosmic ray high energy particles with liquid scintillator

  13. 太阳高能粒子的电荷态和粒子强度间的相关性

    Charge states of solar energetic particles and correlations between particle intensities

  14. 托卡马克中高能粒子的初始轨道及其损失研究

    The research on the first-orbit and loss of energetic particles in Tokamak

  15. 有的原子受到高能粒子轰击之后才会裂变。

    Some atoms decompose only after being bombarded with high energy particles .

  16. 高能粒子辐射直拉硅中辐照缺陷的控制

    Control of Radiation Defect in CZ Si Radiated by High Energy Particles

  17. 高能粒子弹性散射的黑盘衍射模型

    The black dick diffraction modle of elastic scattering for high energy particles

  18. 磁镜系统内高能粒子的注入和积聚

    Injection and accumulation of high energy particles in a magnetic mirror system

  19. 高能粒子径迹漂移室的研制

    Development of the Drift Chambers for Tracking High Energy Particles

  20. 太阳宇宙线耀斑中的甚高能粒子发射

    Very high-energy particle emission from the solar cosmic ray flares

  21. 高能粒子辐照单晶硅辐照效应的研究

    The Effect of High-Energy Particles Irradiation in Monocrystalline Silicon

  22. 带电粒子与超晶格相互作用及其超高能粒子识别

    Interaction of Charged Particles with Superlattice , and Identification of Particles with Ultra-high Energy

  23. 高能粒子在碳纳米管绳里的沟道效应

    High Energy Particle Channeling in Nanotubes-Rope CARBON NANOTUBES

  24. 太阳耀斑与太阳高能粒子

    Solar Flares and Solar High Energy Particles

  25. 超高能粒子从哪里来?

    Where do ultrahigh-energy particles come from ?

  26. 介绍用于确定高能粒子径迹的蜂房状漂移室组件。

    Honeycomb style module of drift chambers produced for tracking high energy particles was described .

  27. 高能粒子加速骑理学

    Physics of high energy particle accelerators

  28. 玻璃结构紧密,能降低玻璃中高能粒子的运动速度,有利于玻璃对辐射粒子的吸收。

    The tight structure decreases the transmission velocity of radiation and benefit the absorption of radiation .

  29. 本「高能粒子物理」课程网页提供了期末报告的相关说明。

    This course on High Energy Particle Physics features a description of a Final Term Paper .

  30. 二种高能粒子射线对西红柿、菊花种子诱变效应的试验初报

    A Preliminary Study on the Mutagenesis Effect of Two Kinds of Energetic Particle Rays on Plant Seeds