小型空心阴极等离子体电子枪实验

基于空心阴极效应和低压辉光放电原理,设计了一种小型空心阴极等离子体电子枪并进行了实验研究,在低气压下获得了稳定的空心阴极辉光放电,测量电子枪放电结果表明:在空心阴极中加入灯丝热子可明显降低放电气压;电子束电流的大小随放电电压增大而增大,受气体气压影响较小;在气压2Pa,放电电压10kV,脉宽4μs脉冲下放电,可得到脉宽为2μs,电流为600mA的电子束。     

空心阴极等离子体电子枪研究

对空心阴极等离子体电子枪的理论与机理做了较详细的分析，介绍了空心阴极放电特性，论 述了激励电极和调制电极在空心阴极内等离子体形成过程中的作用，分析了等离子体中电子 和离子的运动及主要参数，推导出空心阴极内电场与电流密度的表达式，研究了形成稳定电 子束流的基本条件.利用泊松方程、电流连续性方程和运动方程对其进行了数值模拟计算， 并给出了优化结果. 在此基础上设计出了输出束流脉宽为1μs、幅值达2kA的空心阴极等离 子体电子枪. 关键词： 空心阴极 等离子体 电子枪     

气压对大面积等离子体片电子密度分布的影响

利用脉冲磁约束线形空心阴极放电装置,在15mT磁场约束下,产生了持续时间为200μs、峰值放电电流为3A、面积为60cm×60cm的大面积等离子体片。采用快帧法和旋转空心阴极法,在90~210Pa内,利用朗缪尔探针首次获得了不同气压的等离子体片的厚度向电子密度分布及其演化构成的二维分布图;研究了在同等峰值放电电流条件下,等离子体片达到最大厚度向峰值电子密度时,气压对所需放电时间、最大厚度向峰值电子密度及电子密度半高宽的影响。结果表明:在相同的峰值放电电流条件下,等离子体片达到最大厚度向峰值电子密度的时间随气压的降低而减小;气压越低,最大厚度向峰值电子密度越大,电子密度半高宽越小。     

小型化长脉冲二极管设计与实验

在长脉冲高功率微波源研究中关键的部件是二极管，由于阴极爆炸发射产生的阴极等离子体的热扩散，为防止二极管短路，长脉冲二极管通常比一般二极管阴阳极间距大，尺寸也相应较大。原有的长脉冲加速器使用的二极管如图1所示，这也是美国BANSHEE加速器采用的二极管结构。使用的二极管是为满足L波段高功率微波器件的需要，产生电子束电压500kV，电流3kA，脉宽1．5μs，束截面内外径为φ5．7，φ7．3cm。现在为了满足开展S波段相对论速调管研究需要，设计了新的小型化二极管，产生电子束环内外直径约φ4.3，φ3．7cm。     

电极构形对形成大面积放电均匀性影响

 设计并制作了空心阴极、钮扣阴极、针阴极和条形阴极，利用CCD照相，在5cm×5cm口径范围内，分别对四种阴极放电的空间均匀性进行了研究。实验表明，在预电离电压800V，主放电电压3kV和气体气压约30Pa的条件下，利用空心阴极放电，能够获得空间较为均匀的放电等离子体。放电等离子体可以用作普克尔盒电光开关的等离子体电极。     

一种新型微空阴极结构的大气压射频冷等离子体源

介绍微空阴极的结构和物理机理，着重介绍一种新型大气压下射频激励的大面积冷等离子体源——融合空心阴极(fused hollow cathodes，FHC).结合应用和与之有关的研究，简单介绍空心阴极的放电特性，以及影响其放电特性的因素，如阴极材料、气体种类、频率、气体流速、气压、阴极内径等.另外提到了其他两种相关的微空阴极系统. 关键词： 微空阴极 大气压 冷等离子体 射频     

新型电子束源—虚火花放电室设计

提出一种新型的脉冲线加速器驱动的高功率，强流密度，低发射率，高亮度电子束源－虚火花放电室的初步设计。基于空心阴极效应和虚火花放电经验公式，确定了空心阴极，多隙阴－阳极，取及工作气压范围，最后提出关于虚火花产生高亮度电子束源的总体实验方案。     

水中针-板结构小能量脉冲火花放电特性北大核心CSCD

开展了J量级系统储能下电脉冲参数对水中火花放电特性影响研究。驱动源采用参数可调的固态重频纳秒脉冲电源,放电负载为水中针-板结构(间距1 mm),在低重频条件(约5 Hz)下进行实验。通过调节放电参数、拍摄高速阴影图像、光谱诊断以及声信号测量,研究水中脉冲放电的物理特性,得到不同放电参数下放电演化规律及其对声学、光谱特性影响。实验发现:在J量级储能下,放电通道连通两极后,回路电流在几百ns内快速上升至10 A左右,随后缓慢下降,持续50~60μs。发现预设脉宽对放电影响较大,短脉宽条件下放电会被电源固态开关强制截断出现反向放电,而长脉宽条件下放电通道在后期变得不稳定甚至熄弧中断,出现气泡中二次放电现象。辐射光谱揭示了更多等离子体信息,推断通道电子密度在1018 cm-3量级,随着脉宽增加,特征谱线强度增加,表明活性粒子数密度增加,但粒子种类不变。短脉冲(<150μs)作用下产生的脉冲声波的特征宽度在110~150μs,而当脉宽继续增大,声波脉宽并不继续增加而是保持不变,保持在150μs左右。研究结果对水中小能量火花放电的机理研究有一定参考价值,为水声学、液相等离子体等领域的应用提供思路。     

微波电子回旋共振等离子体阴极电子束的实验研究

介绍了实验室研制的微波电子回旋共振(ECR)等离子体阴极电子束系统及初步研究结果，该系统包括微波ECR 等离子体源、电子束引出极、聚焦线圈等。通过测量水冷靶电流和靶上的束斑尺寸，实验研究了微波ECR 等离子体阴极电子束的流强、聚束性能等随电子束系统工作条件的变化。结果表明：微波输入功率越高、引出电压越高，引出电子束流强越大；工作气压对电子束流强的影响较复杂，随气压增加呈现出先降低后升高的特点；在7×10⁻⁴Pa 的极低气压下电子束流强可达75mA，引出电压9kV；能量利用率可达0.6；调整聚焦线圈的驱动电流，电子束的束斑直径从20mm 减小到13mm，电子束流强未有明显变化。     

二极管爆炸发射阴极等离子体的膨胀扩展

分析了二极管中爆炸发射产生阴极等离子体的演化特征,在考虑了阴极等离子体朝阳极膨胀运动使二极管阴阳极间距缩短这一效应的同时,还计入了阴极等离子体沿发射表面径向扩展运动对二极管有效发射面积的影响。基于Child-Langmuir定律,利用在一个四脉冲强流电子束源装置上得到的电流、电压等实验数据,假定阴极等离子体轴向膨胀和径向扩展速度近似相等,研究了阴极等离子体的膨胀扩展动力学行为。计算结果表明,阴极等离子体朝阳极的膨胀和沿径向的扩展速度为0.9～2.8 cm/s。     

Effect of the inside profile of a hollow cathode on the plasmaplume

The effect of the inside profile of a hollow cathode on the intensity of plasma plume has been studied in a low-pressure (~3-torr) argon discharge. The effectiveness of three different `inside' profiles of a hollow cathode was compared by performing emission spectroscopy on the plasma plume in each case. A conical-profile hollow cathode produced a plasma plume that was much more intense than the one in a commonly used cylindrical-profile hollow cathode     

Generation of a pulsed high-current low-energy beam in a plasma electron source with a self-heated cathode

The transition of a low-current discharge with a self-heated hollow cathode to a high-current discharge is studied, and stability conditions for the latter in the pulsed–periodic mode with a current of 0.1–1.0 kA, pulse width of 0.1–1.0 ms, and a pulse repetition rate of 0.1–1.0 kHz are determined. The thermal conditions of the hollow cathode are analyzed, and the conclusion is drawn that the emission current high density is due to pulsed self-heating of the cathode’s surface layer. Conditions for stable emission from a plasma cathode with a grid acting as a plasma boundary using such a discharge are found at low accelerating voltage (100–200 eV) and a gas pressure of 0.1–0.4 Pa. The density of the ion current from a plasma generated by a pulsed beam with a current of 100 A is found to reach 0.1 A/cm². Probe diagnostics data for the emitting and beam plasmas in the electron source are presented, and a mechanism behind the instability of electron emission from the plasma is suggested on their basis.     

The Role of High-Velocity Electrons in a Hollow-Cathode Discharge

In this paper, the features of a low-pressure discharge in a hollow cathode are considered. It has been shown that a free mode can be realized with a double electric layer at the cathode and high density of the current of high-velocity electrons in the discharge bulk, considerably exceeding the current density at the cathode. In this case, the rate of ionization by high-velocity electrons considerably exceeds the rate of ionization by plasma electrons.     

Improvement of the efficiency of a glow discharge-based ion emitter with oscillating electrons

Ion emission from the plasma of a low-pressure (≈5×10⁻² Pa) glow discharge with electrons oscillating in a weak (≈1 mT) magnetic field is studied in relation to the cold hollow cathode geometry. A hollow conic cathode used in the electrode system of a cylindrical inverted magnetron not only improves the extraction of plasma ions to ≈20% of the discharge current but also provides the near-uniform spatial distribution of the ion emission current density. The reason is the specific oscillations of electrons accelerated in the cathode sheath. They drift in the azimuth direction along a closed orbit and simultaneously move along the magnetic field toward the emitting surface of the plasma. A plasma emitter with a current density of ≈1 mA/cm² over an area of ≈100 cm² designed for an ion source with an operating voltage of several tens of kilovolts is described.     

The spatial and temporal development of pseudospark switch plasmas

Optical spectroscopy is used to investigate the spatial and temporal development of high-current pseudospark switch plasmas. At a peak discharge current of 12 kA in amplitude and a current reversal of 20%, the electron density is measured from Stark width broadening of the hydrogen Balmer beta line. The peak electron density of ~4×10¹⁵ cm^-3 is measured briefly after the current maximum. The discharge initially starts on the symmetry axis of the cathode hole. A cylindrical plasma column is observed, which is produced mainly by ionizing collisions of beam electrons formed in the hollow cathode during the early part of the discharge. This plasma column rapidly expands in the radial direction, until it contacts the edge of the cathode hole. The same behavior is found when the Balmer beta line intensity is evaluated rather than the line shape. Although statistically distributed, localized bursts of light are found occasionally, an axially symmetric, homogeneous light intensity distribution is always predominant, and the local arcing is merely superimposed on it. These results confirm that the discharge remains diffuse during most of the current pulse     

Localization of plasma in the extended hollow cathode of a ribbon-electron-beam plasma source at forevacuum pressures

The results of a study of the plasma density distribution in the slit aperture of a right-angled extended hollow cathode used in a ribbon-electron-beam plasma source operating at forevacuum pressures (1–10 Pa) are presented. It is shown that a local peak of plasma density appears in some region of the slit aperture as the slit width is decreased. This results in the appearance of a region of increased current density when the ribbon beam forms. The uniformity of the beam current density distribution is additionally disturbed by the reverse ion flow whose effect on the emission properties of the plasma is significant in the region of elevated pressure. A model which describes the development of plasma density nonuniformity in a hollow cathode is proposed which is based on the idea that the electron current flows predominantly through the slit aperture regions that are associated with local openings of the cathode layer ion sheaths. __________ Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Fizika, No. 6, pp. 3–9, June, 2007.     

Plasma localization in an extended hollow cathode of the plasma source of a ribbon electron beam

The plasma density distributions in the slit aperture of the extended rectangular hollow cathode of the source of a ribbon electron beam are investigated experimentally. It is found that a local maximum whose parameters are determined by the discharge current appears in the density distribution when the slot width is less than a certain threshold value. This maximum results in an inhomogeneous current density distribution in the beam. It is shown that the appearance of the local maximum in the plasma density is related to the overlapping of the ion sheaths in the slit aperture of the hollow cathode.     

Generation of homogeneous plasma in a low-pressure glow discharge

The possibility of producing homogeneous plasma in a low-pressure discharge with the use of a hollow anode or hollow cathode is analyzed. It is shown that, in contrast to the high-pressure discharge, where uniform ionization is needed to produce homogeneous plasma, in the low-pressure discharge, nearly uniform radial distribution of the plasma parameters can be achieved under nonuniform ionization conditions by increasing the ionization probability at the system periphery and reducing it near the system axis. It is shown that the magnetic field can facilitate generation of the homogeneous plasma instead of interfering with it.