讨论了影响激光点火的因素。
All the major factors affecting laser ignition are discussed.
激光点火系统中需要设计激光二极管驱动电路。
It is necessary to design the laser diode driver in the laser ignition system.
这必将为含能材料激光点火系统的设计提供参考和依据。
This will provide references for the design of laser ignition systems.
用光电探测法研究了激光光斑直径对含能材料激光点火特性的影响。
This paper is concerned with the laser ignition performance of energetic material affected by the light spot diameter using photoelectric method.
当激光能量密度低于某一临界值时,点火延迟时间随激光能量密度的提高而线性变短,然而激光能量密度超过该临界值后,激光点火延迟时间保持恒定。
The delay time of ignition is shorted with the rise of the energy density of laser linearly, but when the energy density increases over a critical value, the delay time keeps constant.
这个研究组已经研制出一种激光通过光纤到达火花塞的点火系统。
The team has already created an ignition system in which a laser travels through fiber-optic cables to optical spark plugs.
美国国家点火装置(简称NIF)耗资35亿美元,建在一个十层楼高的建筑里,占地面积有三个足球场那么大。 它将利用激光把氢同位素靶丸转化为热核能量。
The $3.5bn National Ignition Facility (NIF) sits in a 10-storey building covering three football fields and will harness the power of lasers to turn tiny pellets of hydrogen into thermonuclear energy.
目前的计算表明,实现点火需要1.2MJ的能量,而NIF可以实现1.8 MJ的脉冲激光能量。
The current calculations show that about 1.2 megaJoules of energy will be enough for ignition, and currently Nif can run as high as 1.8 megaJoules.
顾名思义,国家点火装置的目标是借助世界上迄今为止最大的激光器进行“点火”——有效且可控的热核爆炸。
The goal, as its name implies, is to harness the power of the largest laser ever built to start "ignition" - effectively a carefully controlled thermonuclear explosion.
而且同一年,劳伦斯·利弗莫尔国家实验室便尝试在其国家点火装置项目中,建造带有激光器的纯核聚变反应堆。
And this year, Lawrence Livermore National Laboratory will attempt to create pure-fusion reactions with lasers at its National Ignition Facility.
这个结论是研究人员在拥有192激光束的美国国家点火装置(NIF)进行初步实验后得出的。
The report is based on the first experiments from the National Ignition Facility (Nif) in the US that used all 192 of its laser beams.
射击精度获得是采用一套简单的使用红外夜视和激光测距仪输入的FCS光点火控系统。
Fire accuracy is attained by a primitive FCS light spot fire control system with ir night vision and laser rangefinder input.
本文介绍了在激光多点点火技术领域所开展的研究工作。
In this paper, some work in the field of laser ignition is introduced.
介绍了在激光多点点火技术领域所开展的研究工作。
In this paper, the research work on the field of laser ignition technique is introduced.
本文简述了激光二极管点火的优越性;
The advantages of laser diode ignition are briefly reviewed.
通过数值模拟分析不同因素对激光多点点火的影响。
Through the numerical simulations we analyze the influence on laser ignition under the different factors.
分析了系列脉冲激光LSD波点火的积累效应以及LSD波的屏蔽效应。
The accumulation effects of LSDWs ignition and shielding effects of LSD Ws have been analysed.
通过理论分析、实验和数值计算研究了激光二极管点火的热作用机理,分析了点火的临界值及影响因素。
Thermal interaction mechanism of laser diode ignition is investigated through theoretic analysis, experiments and numerical calculations. The critical values and impacting factors are analyzed.
这距离实验室“点火”的既定目标还差一步之遥,“点火”也就是当达到核聚变产生与激光器的能量供应一样多的能量的时候。
This is a step short of the lab's stated goal of "ignition", where nuclear fusion generates as much energy as the lasers supply.
论文主要研究了激光单点点火系统的总体设计,研究重点为激光单点点火系统的性能。
The whole design of laser ignition system with single optical fiber is researched in the paper. The emphasis of study is concentrated on performance of system.
进行普通底部电点火、中心传火管点火和激光多点点火的实验工作。
The experiments of base ignition, center-core ignition and multi-point laser ignition are carried out.
报道了用脉冲激光引爆并测定粉尘云最小点火能量的方法。
A new experimental set-up has been developed using pulsed-laser to blast various dust clouds with minimum ignition energy determined at once.
讨论了等离子体能量、点火位置和形状等参数对减阻性能的影响,目前利用激光等离子体技术可以减小70%的波阻。
The influences of plasma parameters such as energy, ignition location and shape on drag performance are reviewed. At present, laser plasma technology can reduce the wave drag by 70%.
以及在透明点传火试验装置上进行的激光多点点火试验研究 。
The structures, performances, mechanism, test and research results of the improved type and new type sealing devices are expounded.
以及在透明点传火试验装置上进行的激光多点点火试验研究 。
The structures, performances, mechanism, test and research results of the improved type and new type sealing devices are expounded.
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