【摘 要】
:
The paper discusses a possible energy transformation that leads to the acceleration of fast ions and electrons. In plasma-focus discharges that occur during deuterium filling, which have a maximum current of about 1 MA, the accelerated deuterons produce f
【机 构】
:
CzechTechnicalUniversity,166-27Prague,CzechRepublicInstituteofPlasmaPhysicsandLaserMicrofusion,01-49
【出 处】
:
MatterandRadiationatExtremes
论文部分内容阅读
The paper discusses a possible energy transformation that leads to the acceleration of fast ions and electrons. In plasma-focus discharges that occur during deuterium filling, which have a maximum current of about 1 MA, the accelerated deuterons produce fast fusion neutrons and fast electrons hard X-ray emissions. Their total energy, which is of the order of several kilojoules, can be delivered by the discharge through a magnetic dynamo and self-organization to the ordered plasma structures that are formed in a pinch during the several hundreds of nanoseconds of the pinch implosion, stagnation, and evolution of instabilities. This energy is finally released during the decay of the ordered plasma structures in the volume between the anode face and the umbrella front of the plasma and current sheath in the form of induced electric fields that accelerate fast electrons and ions.
其他文献
Submicron-meter size GaAsBi disk resonators were fabricated with the GaAsBi/GaAs single-quantum-well (QW)-structure grown by molecular beam epitaxy. The GaAsBi/GaAs QW revealed very broad photoluminescence signals in the wavelength range of 1100–1400 nm a
人们对无线宽带通信技术的需求在近些年稳步增长。无线电波频谱的带宽限制和频带拥堵,通过微波无线网络的发展已经有了明显的改善。然而,无线光互连技术才能使得数据传输带宽达到理想的要求。作为许多无线通讯系统的最终方案,无线光互连也被选择为长期的解决策略。并且,无线光互连的大量优势还没有得到完全的发掘,许多基础性和应用性的研究还需要在实验层面和商业应用层面加以深入。国外,Gb/日的无线光传输已经在实验室中得到了验证,然而,可用的室内无线光互连系统也仅仅达到了155Ml旷日的速度。下面将着重从收发系统、性能及安全性方
利用钛宝石激光作为泵浦源,实现了掺钕氟钡酸锶(Nd:SVAP)晶体在1.06 μm和1.34 μm的高效连续激光运转。在1.06 μm和1.34 μm处得到的最低泵浦阈值分别为2 mW和2.4 mW,最高斜效率分别为49.4%和37.4%,最大输出功率分别为336 mW和165 mW。
以玻璃材料为例对含烃和无烃类半导体抽运碱金属蒸气激光器(DPAL)窗口在高功率连续抽运条件下的损伤过程和机理进行实验研究,通过相机的观察记录铷蒸气池窗口在高功率密度抽运光入射条件下的表面形貌变化,以及对照射后铷蒸气池窗口形貌的显微观察,得到实验结果表明DPAL窗口损伤存在热致物理损伤和化学损伤两种不同的过程,并对其机理进行了分析。该研究方法可应用于其他材料(如蓝宝石)DPAL窗口性能的诊断测试。
A fine layer structure in the Ni/C multilayer (3-4 nm/6-7 nm) is deposited by magnetic sputtering by combining soft X-ray resonant reflectivity curve at 4.48 nm and grazing incidence X-ray reflectivity (GIXR) curve at 0.14 nm. It is found that the thickne
针对水利枢纽高速气流的流速测量需求,提出了一种基于光纤法布里-珀罗(F-P)传感技术的湍流流速测量系统。该系统由风速测量探头和偏振低相干干涉解调单元组成,利用两支F-P传感器检测流场的压力和温度变化,以实现流速的计算。通过追踪单个条纹的峰位置和七步相移法,对低成本线阵CCD采集到的干涉信号进行高精度解调。在温度为20~40℃和压力为98~110kPa的环境下对两支传感器进行标定,用于滞止压力测量的
推导了碰撞产生闪光的射流起爆模型,并利用建立的光纤瞬态高温计测量系统和二级轻气炮加载系统,进行了碰撞速度相近、弹丸入射角度分别为45°和60°(与靶板平面的夹角)时球状铝丸超高速碰撞天然白云石板产生闪光现象的实验测试。实验结果表明:当弹丸为LY12铝、靶板为20 mm厚的天然白云石板,碰撞速度分别为1.86 km/s和1.96 km/s时,弹丸入射角度为45°时的闪光强度峰值大于弹丸入射角度为60°时的闪光强度峰值。
利用阱结构作为发光层,阱由8-羟基喹啉铝和4,4′-N,N′-dicarbazole-biphenyl交替蒸发长成,改善了器件的效率,这归因于增加空穴和电子在薄发光层的堆积,形成的激子有效地被限制在薄的发光层中发光.器件的最大电流效率在外加电压8V时达到4.1cd/A,与一般异质结器件相比效率提高了2倍多.这说明在适当阱数时用简单办法可提高器件的效率.
A device, that is used for biomedical operation or safety-critical applications like point-of-care health assessment, massive parallel DNA analysis, automated drug discovery, air-quality monitoring and food-safety testing, must have the attributes like re