介绍了等离子体隐身技术的原理性试验。
This paper presents principle test on vanishing target by plasma technology.
等离子体隐身是隐身技术的一个新分支。
The plasma stealth technology is a new branch of the stealth technology.
等离子体隐身技术是新概念、新原理的隐身技术。
等离子体隐身的机理非常的复杂,其中包含有十分复杂的大气化学过程。
The mechanics of plasma radio is very complex, including very complex atmospheric chemical processes.
在等离子体隐身机理分析中,重点探讨了等离子体折射隐身和吸收隐身特性。
The plasma refractive stealth and absorption stealth characteristic are discussed in the analysis of stealth mechanism of the plasma.
并对实现等离子体隐身进行研究,结果表明利用等离子体对雷达波隐身是可行的。
And the result of calculating simulation show the plasma stealth technique is a feasible method.
电磁波与等离子体相互作用是等离子体隐身技术的关键技术,也是空天信息对抗的重要研究方向。
Interaction between electromagnetic wave and plasma is the key of plasma stealth technique, and one of the important direction of aerospace information confrontation.
简要阐述了等离子体的概念和等离子体隐身的原理,对飞机利用等离子体隐身的关键技术进行了探讨。
This paper simply introduces the concept of plasma and the principles of plasma stealth. The critical techniques for plane stealth by using plasma is explored in this paper.
依据对等离子体隐身技术的局限性分析,提出了采用太赫兹雷达探测等离子体隐身飞行器的可行性及技术途径。
Based on the limit of the plasma stealth technology, the feasibility and technical approach using terahertz radar to detect the plasma stealth aircraft are proposed.
数值结果表明,等离子体隐身在理论上是有效可行的,合理的设置等离子体参数,可以极大的增强等离子体隐身效果。
Numerical results indicate that plasma stealth is effective in theory and reasonable selection with the plasma parameters can greatly enhance the effectiveness of plasma stealth.
在前人研究的基础上,本文对时域有限差分法(FDTD)及其在等离子体隐身技术中的应用进行了系统的分析和研究。
On the basis of the previous research, in this dissertation, the Finite Difference Time Domain (FDTD) method and its application for plasma stealth technology is studied systematically.
分析发现等离子体隐身技术较其他类型的隐身技术最大的优点是不影响飞机的机动性能,且费用低廉,具有很高的应用价值。
Compared with other stealth technique, the most advantage of the plasma stealth technique is that it doesn't affect the maneuverability of aircraft, has low cost and good application perspective.
在目标的雷达隐身方面,等离子体具有巨大的应用潜力。
The plasma has great potential for radar stealth of military objects.
研究了不均匀非磁化等离子体片的目标隐身。
This paper investigates the stealth of target by nonuniform unmagnetized plasmas.
雷达隐身包括外形设计、吸波材料和等离子体等隐身技术,其实质是降低目标的平均雷达截面积。
The stealth technology includes contour design, absorbing materials and plasma stealth technologies, the purpose is to reduce sectional area of average radar for target.
等离子隐身体技术作为一种全新的隐身技术,是通过等离子体与电磁波的相互作用实现隐身的。
Plasma stealth is a new type of stealth technique. To achieve stealth, plasma stealth technique makes use of the reciprocity of plasma and electromagnetic wave.
等离子体诊断技术和等离子体发生器的研制是等离子隐身技术的两项关键技术。
Diagnosis of plasma and manufacture of the plasma production are two key technologies of the technologies of plasma stealth.
对不均匀非磁化等离子体密度与目标隐身的关系进行了研究。
The relation between the plasma density in unmagnetized plasma and the stealth of target is investigated in this paper.
带喷流再入假目标是战略导弹弹头突防的一种重要手段,电子密度及其分布是等离子体发生器实现飞行器隐身的关键。
Reentry bait with cascade is an important means of strategic missile-warhead penetration . Eletron consistence and their distribution is the sticking point of the plasm production implement.
带喷流再入假目标是战略导弹弹头突防的一种重要手段,电子密度及其分布是等离子体发生器实现飞行器隐身的关键。
Reentry bait with cascade is an important means of strategic missile-warhead penetration . Eletron consistence and their distribution is the sticking point of the plasm production implement.
应用推荐