微通道板(MCP)电子清刷用电子枪的设计

为了满足Φ30mm MCP大束流短时间电子清刷新工艺要求，以轴向电子枪工作原理为基础，利用静电场对电子的作用理论，分析了电子的运动轨迹，并对电子的偏转进行了计算。根据计算结果，设计了电子枪的基本结构，确定了电子枪的各种参数：灯丝材料为Φ0.05mm的钨（75%）铼（25%）合金丝；灯丝形状为“∨”字型；电子枪外径为Φ35mm，高度为20mm，最大加热功率为12.6W时，电子发射电流密度达到1.26×10-5A/cm2。用该电子枪对4块性能相近的Φ30mm MCP电子清刷4h后，MCP的增益值达到500±50。这表明：用新电子枪可以代替原RUS-A型电子枪。     

像增强器的荧光屏亮度均匀性测试的校正法研究

像增强器荧光屏亮度均匀性参数是判断其性能好坏的一个重要技术指标。设计了一种测试系统来测试它的亮度均匀性参数。该系统利用标定过的具有均匀亮度的荧光屏(裸屏),以标准像增强器的图像作为标准来校正面源电子枪。由于校正后的面源电子枪仍然存在误差,所以具有均匀亮度的荧光屏(裸屏)的图像不可能是完全均匀的,呈现边缘暗中间亮。分析其图像的亮度曲线,建立校正函数,改变校正函数中的调节系数,直到计算机上显示出图像均匀为止,这时可得出系数确定的校正函数。首先利用校正后的电子枪轰击待测荧光屏,采集其图像,以确定的校正函数对其进行修正,然后观察由计算机显示出的图像是否均匀,从而判断待测荧光屏的均匀性。     

微光像增强器荧光屏测试系统的研究

为了评价微光像增强器在封装前各组成部分的性能,设计并研制了微光像增强器荧光屏测试系统。阐明测试系统的构成以及设计的关键技术,采用数学建模的方法确定热电子发射源的形状。研究了亮度均匀性校正,给出荧光屏发光均匀性、亮度、发光效率和余辉的测试方法。该仪器可以广泛应用到各种型号的荧光屏的研究和生产领域。     

微束斑X射线源LaB_6阴极电子枪的设计

LaB6阴极电子枪是微束斑X射线源的关键组成部件之一。详细的讨论了电子枪的各组成电极 ,即LaB6阴极、Wehnelt栅极和阳极的设计。采用边界元法 (BEM )对电子枪内部电场电位和场强分布进行了有效的数值计算 ,并从阴极开始起利用四阶Runge Kutta法追踪电子的运动轨迹。给出了当阳极端口处电子束半径为设计值时各电极电压、电极结构等工作参量 ,利用该LaB6阴极电子枪可以满足微束斑X射线源需要高亮度、微细电子束发射的要求。     

行波管电子枪数值模拟设计的判定

 提出了采用数值软件模拟法进行行波管电子枪设计时对电子注质量好坏的判断准则：电子枪应具有更好的阴极表面电子发射密度均匀性、电子注层流性、注腰位置附近电子注径向密度分布均匀性及某百分比电子注包络曲线的光滑性等。利用编写的软件对某行波管电子枪进行数值模拟设计时,不断调整电子枪的结构,应用以上设计准则,通过对电子注质量进行判定和比较,得到了相对更符合设计要求的电子枪结构。     

W波段扩展互作用器件均匀磁聚焦电子光学系统

扩展互作用器件,采用三个线圈和一个磁极实现均匀磁场分布。根据理论计算采用有限元法磁学(FEMM)仿真软件对所求磁场进行了建模分析,依据FEMM计算的磁场结合静电电子枪,采用CST仿真软件对高电流密度、高压缩比的电子注在均匀聚焦磁场的作用下传输进行优化。经过计算得出,在工作电压为17 kV、阴极发射电流密度小于10 A/cm2的条件下,由皮尔斯电子枪发射的电子注在均匀磁场的聚焦作用下传输良好,通过率为100%,得到了导流系数为0.175μP的电子枪,在均匀磁场区形成了高电流密度、高压缩比的电子注,平均电流密度达到343.17 A/cm2,压缩比为32,电子注横纵速度比为7.2%。     

电子帘加速器电子枪的研制

研究了电子帘加速器电子枪的束流传输特性,分析了影响束流纵向均匀性的几个因素,尤其对灯丝的下垂问题提出了一种理想的端约束模型.介绍了新研制的电子枪,其束流纵向不均匀度≤±10%.     

多注速调管电子光学系统的模拟

 利用3维电磁场计算软件MAFIA对L波段100 kW多注速调管的多注电子光学系统进行了模拟计算。通过编写宏程序使MAFIA可以计算旁轴电子枪的性能参数,给出了磁场分布并分析了磁场的差异对电子轨迹的影响。模拟表明：中心注磁场具有轴对称性,在均匀区,轨迹的波动性最小,电子轨迹的层流性也最好; 内层电子注径向磁场较小,轨迹的波动性略大于中心注的情况;外层电子注靠近极靴处径向磁场最大,电子轨迹的波动最大,层流性最差。计算并模拟显示了18个电子注在收集极入口处的发散情况。     

微秒长脉冲有磁场高功率微波二极管真空界面设计

介绍了一种微秒长脉冲有磁场的真空二极管界面的设计和实验结果。采取了三种措施来抑制沿面闪络:一是阴极电子束挡板,用来拦截来自阴极和电子束漂移管的回流电子束;二是接地屏蔽板,使电场等势线和界面成约45°角,使阴极三结合点处发射的电子远离绝缘板;三是降低阴极三结合点处的场强,并使用一悬浮电位的金属环阻止电子倍增过程。计算了二极管内电场、磁场分布和电子束的运动轨迹并据此优化了真空界面的结构,实验验证了该二极管真空界面可以在400 kV、800 ns条件下正常工作,可以支持长脉冲高功率微波器件的研究。     

加速器电子枪控制器的设计及其远程光纤通讯的实现

 介绍了合肥国家同步辐射实验室200 MeV电子直线加速器新型脉冲电子枪控制器的工作原理，以及I²C总线和嵌入式微控制器在电子枪控制器中的应用，详细分析了加热灯丝的数控电流源、引出电子束的数控电压源和脉冲电压源等模块的硬件实现，并给出了光纤通讯和后端微机控制软件的设计过程。该电子枪已成功应用于加速器的实际运行中，性能稳定，工作可靠，完全替代了以前的机械控制方式。     

耦合同轴磁绝缘传输线的低阻抗大面积轫致辐射二极管设计北大核心CSCD

为了设计与前端低阻抗同轴磁绝缘传输线耦合的大面积轫致辐射二极管,提出了一种利用锥形磁绝缘传输线(MITL)结合阴极开孔结构来对电子输运进行调节的二极管设计方案。该结构的主要特点是在不外加电子输运调控装置的前提下,利用大角度的入射电子产生轫致辐射,在靠近二极管出射窗附近形成大面积准均匀辐射区。采用二维粒子模拟与蒙特卡罗模拟(MCNP 4C)相结合的数值模拟方法对二极管进行了模拟和分析,对于如何构建更好反映角向均匀的MCNP源提出了新的想法。模拟结果表明,该设计方案可以实现在不外加电子输运调控装置的情况下,在二极管后端得到均匀大面积轫致辐射区。     

大面积微通道板（MCP）电子清刷测试系统设计

电子清刷是提升MCP性能的有效手段,鉴于目前国内的清刷测试系统只适用于直径30 mm以下的MCP,设计了一套4工位大面积MCP（500 mm100 mm）的清刷测试系统。该系统4个工位均可实现对大面积MCP的电子清刷,且其中一个工位兼具测试功能,可以测试清刷前后MCP的参数变化,清刷测试工位可实现相互转换。通过均匀紫外光照射金阴极产生均匀电子再经标准MCP（105 mm）倍增后得到用于清刷的可调均匀电子束。多次抽真空、检漏、及对该系统的烘烤处理使该系统达到真空度510-4 Pa的时间小于45 min,且极限真空度优于510-5 Pa,完全满足了清刷测试的指标要求。针对负载对该真空系统抽真空难度带来的影响,定义了负载影响因子K,并在实验过程中对K值作了量化计算（K值在0.35~1.57范围内）,揭示了K值与该系统抽真空难度存在的正比例关系。     

Radiation from electrons in graphene in strong electric field

We study the interaction of electrons in graphene with the quantized electromagnetic field in the presence of an applied uniform electric field using the Dirac model of graphene. Electronic states are represented by exact solutions of the Dirac equation in the electric background, and amplitudes of first-order Feynman diagrams describing the interaction with the photon field are calculated for massive Dirac particles in both valleys. Photon emission probabilities from a single electron and from a many-electron system at the charge neutrality point are derived, including the angular and frequency dependence, and several limiting cases are analyzed. The pattern of photon emission at the Dirac point in a strong field is determined by an interplay between the nonperturbative creation of electron–hole pairs and spontaneous emission, allowing for the possibility of observing the Schwinger effect in measurements of the radiation emitted by pristine graphene under DC voltage.     

Electromagnetic radiation from positive-energy bound electrons in the Coulomb field of a nucleus at rest in a strong uniform magnetic field

A classical analysis is presented of the electromagnetic radiation emitted by positive-energy electrons performing bound motion in the Coulomb field of a nucleus at rest in a strong uniform magnetic field. Bounded trajectories exist and span a wide range of velocity directions near the nucleus (compared to free trajectories with similar energies) when the electron Larmor radius is smaller than the distance at which the electron-nucleus Coulomb interaction energy is equal to the mechanical energy of an electron. The required conditions occur in magnetic white dwarf photospheres and have been achieved in experiments on production of antihydrogen. Under these conditions, the radiant power per unit volume emitted by positive-energy bound electrons is much higher than the analogous characteristic of bremsstrahlung (in particular, in thermal equilibrium) at frequencies that are below the electron cyclotron frequency but higher than the inverse transit time through the interaction region in a close collision in the absence of a magnetic field. The quantum energy discreteness of positive-energy bound states restricts the radiation from an ensemble of bound electrons (e.g., in thermal equilibrium) to nonoverlapping spectral lines, while continuum radiative transfer is dominated by linearly polarized bremsstrahlung.     

Hard undulator radiation in an inverse medium

X-ray radiation from fast electrons in undulators filled with an inverse medium is studied. A formula for the spectral density of the number of photons is derived. The intensity zeroth harmonics, as well as the intensity of radiation in zero undulator field, are described by the Tamm-Frank formula for Cherenkov radiation. It is shown that the spectral density of emitted photons in a wavelength range of λ ? 0.4–2.0 Å in such a medium can be increased by four orders of magnitude as compared to the radiation intensity in a vacuum undulator. The energy of emitted electrons in the former case must be in an interval of 5-2 GeV, while electrons with an energy of 14-6 GeV are required in vacuum undulators.

     

Novel Field Emission Organic Light Emitting Diodes with Dynode

This work presents novel field emission organic light emitting diodes(FEOLEDs) with dynode,in which an organic EL light-emitting layer is used instead of an inorganic phosphor thin film in the field emission display(FED).The proposed FEOLEDs introduce field emission electrons into organic light emitting diodes(OLEDs),which exhibit a higher luminous efficiency than conventional OLED.The field emission electrons emitted from the carbon nanotubes(CNTs) cathode and to be amplified by impact the dynode in vacuum.These field emission electrons are injected into the multi-layer organic materials of OLED to increase the electron density.Additionally,the proposed FEOLED increase the luminance of OLED from 10 820 cd/m2 to 24 782 cd/m2 by raising the current density of OLED from an external electron source.The role of FEOLED is to add the quantity of electrons-holes pairs in OLED,which increase the exciton and further increase the luminous efficiency of OLED.Under the same operating current density,the FEOLED exhibits a higher luminous efficiency than that of OLED.     

Effect of electron emission and potential perturbations of a hot filament in high voltage pulsed glow discharge

The high voltage dc pulsed glow discharge can be ignited earlier by putting an electron emitting filament in the plasma chamber. The electrons emitted from the filament act as a seed and can cause earlier ignition. The potential of the hot filament shows some periodic positive perturbations (electron loss signals) when it is kept floating in the plasma chamber. It is observed that the positive perturbations disappear as potential difference between the plasma and the filament is made smaller by directly connecting the filament to the grounded chamber.     

真空二极管辐射微波的机理分析

在研究真空开关的过程中,发现真空二极管能辐射出宽带微波.这种器件只由带触发装置的阴极和平板阳极组成,不存在金属波纹慢波结构,所以真空二极管的辐射机理与等离子体填充微波器件不同,不能直接套用等离子体填充微波器件的相关理论.本文描述了真空二极管产生辐射的物理过程,建立了真空二极管辐射的数学模型,通过求解波动方程得到产生辐射的色散关系,并绘制出了色散曲线.将理论分析得到的色散曲线与已经测得的微波辐射进行比较,两者能很好地符合.理论分析和实验结果表明,电子束和磁化等离子体的相互作用是真空二极管产生微波辐射的原因.