high energy particle
英 [haɪ ˈenədʒi ˈpɑːtɪkl]
美 [haɪ ˈenərdʒi ˈpɑːrtɪkl]
高能粒子
双语例句
- On Improving Students 'Quality in Physics Teaching; high energy and particle physics
物理课堂教学中提高学生素能的探讨高能物理和粒子物理 - High energy electrons have very short wavelengths associated with particle waves and electron diffraction is used to probe the atomic structure of both inorganic and organic materials.
高能电子的量子波可用来探测有机和无机材料的原子结构。 - Physics of high energy particle accelerators
高能粒子加速骑理学 - This course on High Energy Particle Physics features a description of a Final Term Paper.
本「高能粒子物理」课程网页提供了期末报告的相关说明。 - CMOS active pixel sensors for high energy particle tracking
CMOS有源集成像素传感器检测高能物理粒子 - High energy and particle physics On Training Ability of Thinking in Teaching of Atomic Physics
高能物理和粒子物理谈谈原子物理教学中思维能力的培养 - Among the degree specializations in physics are condensed matter physics, high energy particle physics, engineering physics, and others.
物理学中专业化的分支有密度物理学、高能粒子学、工程物理学等。 - This review covers the following topics: the large detectors for high energy particle detection, the electronics for high energy physics experiments, and the detector physics.
文中讨论了以下问题:大型高能粒子探测器、高能实验电子学及探测器物理。 - High Efficiency and Energy Saving RGB Technique for Wood Particle Drying
RGB高效节能刨花干燥工艺 - Sub-micron SiCp/ Al composites prepared by high energy ball milling and semi-solid extrusion techniques owned excellent particle dispersion ability, and the materials owned excellent mechanical and thermal physical properties.
采用高能球磨&半固态挤压技术制备的亚微米SiCp/Al复合材料具有较好的颗粒分散性,材料具有良好的力学和热物理性能。 - A New Type Heat Treatment Equipment of High Efficiency for Saving Energy& RSL Electrical Stove with Fluidized Particle
节能高效的新型热处理设备&RSL系列流态粒子电炉 - With the combination of high energy ball milling method and semi-solid extrusion method, in this paper the technique of preparing sub-micron particle strengthening aluminum matrix composite was developed firstly.
本文率先将高能球磨和半固态挤压技术相结合,形成亚微米颗粒增强铝基复合材料制备新技术。 - The rapid advance of high energy physics experiment has pushed the nuclear electronics to a new stage, i.e. the particle electronics.
高能物理实验的发展把核电子学推向一个新的阶段。 - The mechanochemical effect and hydration activity change of single-mineral β– C2S ground with high energy ball mill were studied using laser particle sizing technology, X-ray diffraction, scanning electron microscope, heat conduction micro-calorimetric technology and infrared spectrum analysis methods.
采用激光粒度测量、X射线衍射、扫描电镜、热导式微量热和红外光谱分析等手段对β–C2S单矿物经高能球磨作用后发生的机械力化学效应及水化活性的改变进行了研究。 - Numerical simulation of three dimensional two phase flow ignition and instantaneous process of flame spreading in high energy particle bed
高含能颗粒床中瞬变点传火过程的三维两相流数值模拟 - 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.
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。 - The quark degrees of freedom in high energy composite particle scattering
高能复合粒子散射中的夸克自由度 - SSR Analysis on m_1 variation of wheat irradiated by mixed high energy particle field
高能混合粒子场辐照小麦M1代变异的SSR分析 - Also, for the processor working in radiation environment in space, it is easy to cause the single event effect on circuits and the system failures, due to cosmic rays and high energy particle radiation.
同时,对于应用在航天等空间辐射环境中的处理器,由于宇宙射线和高能粒子的辐射作用,容易导致处理器内部集成电路产生各种单粒子效应,进而引起系统的失效。 - The production of J/ ψ in high energy collisions has been one of the most active frontiers in nuclear physics and particle physics.
高能碰撞中的J/ψ粒子产生是当前原子核物理和粒子物理研究的前沿问题之一。 - The parton energy loss in high energy collisions has attracted an increasing attention from both the nuclear and particle physics communities.
高能碰撞过程中的部分子的能量损失效应日益引起核物理学家和粒子物理学家的广泛关注。 - The water uptake of composite membranes increased with the content of TiO2 increasing at the same DS because of large specific surface area and high surface energy of TiO2 particle.
由于纳米Ti02具有大的比表面积、高的表面能,使得在相同磺化度条件下复合膜的吸水率随膜中无机粒子含量的增加而升高。 - As random distribution may result in high density and large energy consumption, this paper proposes balanced an energy consumption covering strategy based on multi-objective particle swarm.
针对随机高密度节点布设导致的节点覆盖区域重叠、网络能耗过大等问题,提出了一种基于多目标粒子群的能耗均衡覆盖策略。