脉冲金属氢化物真空弧放电等离子体发射光谱特性

利用发射光谱方法对真空弧离子源放电等离子体特性进行了诊断。同时,基于局域热力学平衡等离子体的发射光谱理论,建立了等离子体的发射光谱拟合模型,对真空弧放电等离子体光谱进行了分析。针对TiH真空弧离子源,分别对330~340nm与498~503nm范围内Ti+离子与Ti原子的发射光谱进行了对比拟合,获得了较好的符合度,解决了传统Boltzmann斜率法计算等离子体温度需要孤立的不受附近谱线干扰的线状光谱的困难。最后,利用该方法计算了真空弧离子源在不同放电条件下的等离子体发射光谱、等离子体密度与温度参数。结果表明,TiH真空弧放电等离子体温度在1eV左右,同时,放电所产生的氢原子要远远大于金属原子,并且随着真空弧离子源馈入功率的增加,TiH电极中解吸附出来的氢比蒸发出来的金属增加得更多,这有利于TiH离子源在中子发生器方面的应用。     

含氢电极真空弧放电等离子体时空分布特性研究

真空弧离子源在真空镀膜、材料表面改性、真空大电流开关、加速器离子注入等领域有广泛应用,目前国内外对真空弧放电等离子体的研究主要针对纯金属或合金电极,对含氢电极的研究和公开报道较少.本文利用高时空分辨的四分幅图像诊断系统,结合氢和钛原子特征线单色器件,研究了含氢钛电极的真空弧微秒级脉冲放电等离子体的轴向和径向时空分布特性.研究表明:在真空击穿阶段,阳极区域发光更为明显,阳极电极解吸附释放的氢原子是引发击穿的主要放电介质;在真空弧阶段,阴极-绝缘-真空三结合点处产生圆锥状阴极斑,喷射出大量的等离子体以维持弧放电,同时电极内壁非阴极斑区域也有少量等离子体产生,等离子体中H原子的轴向和径向空间分布均比Ti原子均匀.     

氘化物阴极真空弧放电光斑分布

氘化物真空弧放电在许多领域均有应用,如无损检测、石油探井、中子活化分析等。和金属阴极不同,氘化物阴极放电时会释放大量的气体分子,表现出许多不同性质。采用放大镜头和ICCD相机观察了氘化物阴极真空弧放电光斑分布。测量系统的空间分辨率约为5 μm,时间分辨率最小2 ns。放电脉冲半高全宽（FWHM）0.9 μs,弧流波形为半周期正弦波。实验结果表明,氘化物真空弧放电时,所有阴极斑聚集为一个群落,表现为一个大光斑;在液滴作用下,阴极斑群落偶尔也会分裂为两个或多个群落;光斑形状不受弧流影响,但面积和亮度会随弧流增加而增大。氘化物阴极放电斑点聚集有利于产生高密度等离子体,提高放电效率。     

含氢电极脉冲放电等离子体特性诊断

利用飞行时间质谱法诊断了含氢电极脉冲真空弧离子源放电等离子体成分、离子电荷状态及离子扩散速度等特性.实验结果表明,含氢电极脉冲真空弧离子源放电等离子体的离子成分主要由H+,Ti+,Ti2+和Ti3+组成,其中Ti2+占主要部分.当放电电流为40～80 A时,Ti离子的平均电荷数在1.95～2.13之间,随着放电电流的增...     

微型电子回旋共振离子源的全局模型

微型电子回旋共振(electron cyclotron resonance, ECR)离子源在紧凑型离子注入机、小型中子管、微型离子推进器等领域有着十分广泛的应用.为了深入认识微型ECR离子源的工作机理,本文以北京大学自主研制的一款微型氘离子源作为研究对象,以氢气和氘气放电形成的等离子体为例,发展了一种基于粒子平衡方程的全局模型.研究结果表明,该离子源束流成分与离子源的运行气压和微波功率有着很强的依赖关系.对于氢气放电等离子体,微波功率低于100 W时,离子源可以分别在低气压和高气压情况下获得离子比超过50%的H~+₂离子束和H~+₃离子束;当微波功率高于100 W时,可以在很宽的运行气压范围内,获得质子比超过50%的束流.因此,提高微波功率是提高微型离子源质子比的关键.对于氘气放电等离子体, 3种离子比例对运行气压和微波功率的依赖关系与氢气放电等离子体的规律基本一致.但是在相同的运行条件下, D~+比例比H~+比例高10%—25%.也就是说,在微型氘离子源的测试和优化过程中,可以利用氢气代替氘气进行实验,并将质子比测量结果作为相同条件下氘离...     

磁场调控型离子源的设计与实验

磁场调控型离子源在离子源等离子体扩散空间中引入轴向强脉冲磁场,磁场起两方面的作用,一是形成潘宁放电效应,使原子、气体分子碰撞电离效率增加;二是在脉冲强磁场的作用下,强轴向磁场将质量较轻的离子约束在轴线上,对质量较重的金属离子约束能力较弱,导致其在等离子体膨胀引出通道中碰壁损失,能够提升引出轻离子的比例。开展了磁场调控的离子源放电结构、强脉冲螺线管磁场以及引出束流光学结构的设计;测量分析了引出离子流强和离子打靶束斑形貌。研究结果表明,强轴向磁场通过等离子体对混合离子成分的筛选作用,可有效提高引出离子流强中的轻离子成分比例。     

用于真空弧等离子体放电阴极温度场测量的多光谱高温计

阴极表面温度是真空弧等离子体放电过程中一个重要参数,对真空弧等离子体的形成、电极腐蚀预测、热传导以及离子源的寿命都有重要影响。真空弧离子源的阴极具有目标小,放电过程快等特点,其温度的测量,对于时间分辨率和空间分辨率要求都很高,阴极表面温度的测量技术的欠缺,使得仅靠理论解析获得的结果难以得到验证。并且等离子体放电过程中测量仪器极易受到弧光的影响,如何避免放电过程中等离子体的辐射也是采用辐射法测量阴极表面温度要考虑的问题。这无疑给其温度场的测试研究带来困难。针对脉冲真空弧等离子体开展阴极表面温度测试实验有着重要意义,在分析了真空弧等离子体放电特性以及背景辐射特性和等离子体放电阴极测温的实际需求,本文基于高速CCD相机研制了一种新型的多光谱高温计。该高温计采用单色高速CCD相机,主要避免RGB彩色相机不能完全滤除背景辐射的弧光。为使用单色CCD相机实现多光谱辐射测温,设计了高温计的光学系统,该系统采用4孔径分光系统。将4种不同波长的滤光片嵌入到1个滤光片中。该研究设计的高温计可用于2 000~6 000 K的等离子体温度测量。并在中国工程物理研究院电子工程研究所进行现场测试,测试过程中将研制的高温计,通过外部触发形式对等离子体放电过程进行跟踪拍摄,高温计完全拍摄到等离子体放电过程。利用真空弧等离子体金属电极阴极放电的实测数据对高温计进行了验证。实验结果表明,设计的新型多光谱高温计能够用于测量真空弧等离子体放电时阴极温度场信息,测量的温度值低于放电电极的沸点温度,与等离子体放电过程中出现气化现象相符,说明高温计测的是等离子体放电阴极的温度。     

HL-2M装置中性束离子源束光学红外成像实验研究

为了研究HL-2M装置中性束注入(NBI)加热用的80k V/45A/5s热阴极离子源束光学特性,采用红外电荷耦合元件(CCD)成像技术,测量离子源引出粒子束轰击量热靶板产生的温度分布,得到束功率密度空间分布区间特征参数1/e半宽度。在NBI热阴极离子源调试平台上,扫描离子源的放电和引出参数,利用CCD红外热像仪获得了对应参数下量热靶上的束功率密度分布。实验结果表明,HL-2M装置NBI加热系统80k V/45A离子源可用的导流系数范围为0.7~1.5?P。同样导流系数下,梯度电极与等离子体电极的分压比较高时,引出束流的半宽度较小。     

HL-2M装置中性束离子源束光学红外成像实验研究

为了研究HL-2M装置中性束注入(NBI)加热用的80kV/45A/5s热阴极离子源束光学特性，采用红外电荷耦合元件(CCD)成像技术，测量离子源引出粒子束轰击量热靶板产生的温度分布，得到束功率密度空间分布区间特征参数1/e半宽度。在NBI热阴极离子源调试平台上，扫描离子源的放电和引出参数，利用CCD红外热像仪获得了对应参数下量热靶上的束功率密度分布。实验结果表明，HL-2M装置NBI加热系统80kV/45A离子源可用的导流系数范围为0.7~1.5μP。同样导流系数下，梯度电极与等离子体电极的分压比较高时，引出束流的半宽度较小。     

MEVVA放电在材料表面改性上的应用

本文描述了金属蒸发真空弧放电的特点，阴极弧等离子体的形成过程，以及在加热蒸发电离方式相比ＭＥＶＶＡ放电的优越性。文章还叙述了建筑的ＭＥＶＶＡ离子源的实用参数，工作过程及ＭＥＶＶＡ等离子体源在全方位离子注入装置中的应用。     

Effect of the discharge parameters on the generation of deuterium ions in the plasma of a high-current pulsed vacuum arc with a composite zirconium deuteride cathode

We have studied the mass and charge composition of an ion beam extracted from the plasma of a vacuum arc with a zirconium deuteride cathode for various durations of the arc current pulse (half width at half amplitude) of 2, 4, 7, and 17 μs. It has been established that the fraction of deuterium ions in the vacuum arc plasma increases with the current and the dependence achieve saturation for current of about 1 kA. For the fraction of deuterium atoms in the cathode at a level of 40%, the fraction of deuterium ions in the vacuum arc plasma can exceed 80%. The experimental results have been interpreted theoretically. It has been shown that the main sources of deuterium ions in a microsecond arc discharge are cathode spots. We have developed a model of deuterium desorption during the operation of cathode spots for quantitatively estimating the concentration of deuterium ions in the arc plasma.     

Influence of a current jump on vacuum arc parameters

Based on time of flight method, influence of short time vacuum arc current jump on arc plasma parameters were investigated. Superposition of the current pulse of a vacuum arc with a high operating voltage results in the appearance of ions of higher charge state in the discharge plasma and in an increase in the mean ion charge state for most of the cathode materials used in the experiment. The method of a “short-time current jump” can be also used to investigate the parameters of a vacuum arc, in particular to estimate the ion direct velocities in vacuum arc plasmas. Our estimates show that in the presence of a current step the ion velocities are almost identical for all differently charged ions and depend only on the peak current and the ion mass     

Investigation of the Directional Velocities of Ions in a Vacuum Arc Discharge by Emission Methods

This paper is devoted to an investigation of the directional velocities of the ions generated in cathode spots of vacuum arc discharges. By using emission methods of studying the processes in a vacuum arc discharge, which involve the determination of the parameters and characteristics of the discharge plasma by analyzing the ion current extracted from the plasma and the ion charge states, the velocities of ions have been determined for the majority of cathode materials available in the periodic table. Is has been shown that at a low pressure of the residual gas in the discharge gap the directional velocities of the ions do not depend on the ion charge state. Comparison of the data obtained with calculated values allows the conclusion that the acceleration of ions in a vacuum arc occurs by the magnetohydrodynamic mechanism.     

A physical model of the low-current-density vacuum arc

A one-dimensional (1-D) physical model of the low-current-density steady-state vacuum arc is proposed. The model is based on the continuity equations for ions and electrons and the energy balance for the discharge system; the electric potential distribution in the discharge gap is assumed to be nonmonotonic. It is supposed that the ion current at the cathode is generated within the cathode potential fall region due to the ionization of the evaporated atoms by the plasma thermal electrons having Boltzmann's energy distribution. The model offers a satisfactory explanation for the principal regularities of a hot-cathode vacuum arc with diffuse attachment of the current. The applicability of the model proposed to the explanation of some processes occurring in a vacuum arc, such as the flow of fast ions toward the anode, the current cutoffs and voltage bursts, and the backward motion of a cathode spot in a transverse magnetic field is discussed     

纵磁作用下真空电弧单阴极斑点等离子体射流三维混合模拟

真空电弧的特性直接受到从阴极斑点喷射出的等离子体射流的影响,对等离子体射流进行数值仿真有助于我们深入了解真空电弧的内部物理机制.然而,磁流体动力学和粒子云网格仿真方法受限于计算精度和计算效率的原因,无法有效地应用于真空电弧等离子体射流仿真模拟.本文开发了一套三维等离子体混合模拟算法,并在此基础上建立了真空电弧单阴极斑点射流仿真模型,模型中将离子作宏粒子考虑,而电子作无质量流体处理,仿真计算了自生电磁场与外施纵向磁场作用下等离子体的分布运动状态.仿真结果表明,单个阴极斑点情况下真空等离子体射流在离开阴极斑点后扩散至极板间,其整体几何形状为圆锥形,离子密度从阴极到阳极快速下降.外施纵向磁场会压缩等离子体,使得等离子体射流径向的扩散减少并且轴线上的离子密度升高.随着外施纵向磁场的增大,其对等离子体射流的压缩效应增强,表现为等离子体射流的扩散角度逐渐减小.此外,外施纵向磁场对等离子体射流的影响也受到电弧电流大小的影响,压缩效应随电弧电流的增加而逐渐减弱.     

Investigation of ion behavior associated with anode-spot modetransition in vacuum arcs

The ion behavior phenomenon associated with transitions of the anode discharge mode to the anode-spot mode is studied by measuring the wall ion current and by spectroscopic observation in vacuum arcs. The anode mode transfers when the wall ion current attains a certain magnitude that is independent of the cathode, but dependent on the anode. The ion-current function to the arc current increases when the arc current increases in the diffuse arc. Spectral-line intensity of Cu III emitted from the plasma in the anode region increases with an instantaneous arc current of a 5-kA peak (kAp) sinusoidal half-wave. These findings suggest an idea for the mode transition, that an ion generation region appears, and that an increase in the ion density produces a positive potential hump near the anode, which results in the negative anode voltage drop triggering the mode transition. After the mode transition, an arc current is found to reduce the ion current near the crest of a sinusoidal current in a copper arc. This appears to be significant for the arc on a small anode. The decrease in the ion current is attributed to the recombination of ions decelerated by anode vapor with electrons emitted from the hot spot on the anode     

Ion emission from arc discharge plasmas

Results are presented from studies of the ion-emission properties of the anode plasmas of low-pressure contracted arc discharges and vacuum arcs. It is shown that creating a longitudinal magnetic field in the anode region of a discharge changes the plasma parameters significantly and facilitates a large increase in the ion current. Space charge limited ion current in a vacuum arc leads to a reduction in the noise level of the total ion current and of its components with charges of up to +3, while creating Penning discharge conditions ensures that ions of different gases can be generated in this discharge system at fractions as high as 90%, depending on the type of plasma forming gas.Institute of High-Current Electronics, Siberian Branch, Russian Academy of Sciences. Translated from Izvestiya Vuzov, Fizika, No. 3, pp. 24–33, March, 1994.