它能满足中性束注入系统对真空的要求。
中性束注入加热是可控核聚变主要的辅助加热方式之一。
Neutral beam injection (NBI) heating is one of the main auxiliary heating methods in controllable nuclear fusion experiment.
在受控核聚变研究中,中性束注入已经成为加热等离子体的有效手段。
In fusion research, the neutral beam injection has become an efficient method for heating plasma.
介绍了用于HL1M中性束注入器电源系统中的一个快速断电保护器。
This paper introduces a fast turn off power protector for HL 1m neutral beam injector power supply system.
介绍了用于EAST的诊断中性束(dnb)加速极初级电源的设计方案。
Design of accelerators primary power supply in DNB for EAST diagnosis is described in this paper.
中性束注入器的关键部分是离子束系统,它的性能决定了中性束注入的效率和效果。
A key part of the neutral beam injector is ion beam system, whose property defines the efficiency and effect of the neutral beam injector.
系统成功地应用于实验并获得理想的实验结果,为诊断中性束稳态运行提供可靠保障。
The system has been applied successfully in experiment and get many ideal results, which also provides a guarantee for the reliable running of diagnostic neutral beam.
利用CCD(电荷耦合装置)相机所成象的光强度峰值拟合中性束中三种能量成分的空间密度分布。
The density profiles of three energy components in neutral beams are derived from the image peaks in the CCD (Charge Coupled Device) camera pictures.
中性束注入系统要求有洁净的动态高真空环境,大抽速液氦冷凝泵是满足此要求的理想真空获得设备。
The Neutral Beam Injection (NBI) system requires a clean high vacuum environment. The liquid helium cryocondensation pump with high pumping speed is an ideal vacuum obtain device.
本文叙述了中性束注入器中的强流离子源引出系统离子束光学性质的数值模拟方法,并给出了典型计算结果。
A numerical method simulating high current ion sources for neutral beam injection is given in this paper as well as its typical result.
在反场箍缩条件下可允许用强等离子体电流充分加热等离子体到点火温度,而不需要辅助的中性束或射频加热系统。
The high plasma current allowed in a RFP is expected to be sufficient to heat the plasma to ignition without the need of auxiliary neutral-beam or radio-frequency heating.
而DNB功率测量是在dnb向tokamak注入粒子前获取中性束流的功率大小及其分布情况,以便施行有效的控制。
DNB power measurement system gets the value and distribution of power before injecting the particles to TOKAMAK, so that the DNB system can be easily controlled.
文章介绍HT- 7托卡马克实验装置上的中性束诊断电源系统的组成、结构,以及基于S7 - 300PLC的逻辑控制系统。
A power supply system for diagnostic neutral beam on the HT-7 Tokamak was developed. Its logic control system based on S7-300 PLC was described.
介绍了利用光场控制中性原子束制作微细图形的基本原理。
The basic principle of fabricating nanometer patterns by controlling neutral atoms is introduced in this paper.
在环内中性等离子体情况下计算了传输过程中的两个重要参量——平衡半径和空间电荷力平衡半径,讨论了电子束的传输特点。
Two important parameters-balance radiuses and space charge force balance radius is calculated under neutral plasma case. The properties of electron beam transmission are discussed.
本文叙述了锂离子束通过钠蒸汽时的中性化效率测量。
The neutralizing efficiency of sodium vapour for lithium ion beam has been measured.
模拟通过加载氢离子圆盘和充入中性氢气,观察了引入离子后电子束和离子的行为。
Hydrogen ion lens are loaded and neutral hydric gas is filled in simulation in order to observe the interactional behavior of electrons and ions.
应用粒子模拟方法研究了电子束潘宁阱中的非中性等离子体的稳定状态及其定标关系。
A particle in cell code has been developed to simulate the steady state of electron plasmas in an electron beam Penning trap and to study its scaling law.
激光、电子束等高能束焊接加热具有升温速度快、热集中性与瞬时性强等特点,对被焊材料造成热冲击。
Laser and electron beam welding produce thermal shocks on the materials with rapid transient and concentrated high energy beam.
本文给出了强流相对论性电子束(IREB)在低压中性气体中传输特性的理论和实验研究结果。
Experimental and theoretical results of Intense Relativistic Electron Beam (IREB) propagation in low pressure neutral gases are presented.
本文给出了强流相对论性电子束(IREB)在低压中性气体中传输特性的理论和实验研究结果。
Experimental and theoretical results of Intense Relativistic Electron Beam (IREB) propagation in low pressure neutral gases are presented.
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