等离子体填充带状螺旋线的色散方程

利用线性场理论和螺旋线的导带模型，对填充等离子体的带状螺旋线进行了严格的场分析.在给出各区域电磁场分量表达式的基础上，利用螺旋带的边界条件，导出了等离子填充带状螺旋线中电磁波传播的色散方程. 关键词： 等离子体 带状螺旋线 色散方程     

对提高大学物理实验教学质量的几点认识

物理实验课程，它涉及物理、机械、电子及计算机等多方面的知识．精心组织实验教学，不仅让学生受到严格、系统的实验技能训练，掌握科学实验的基本知识、方法和技巧，更主要的是培养学生的科学思维能力和创新精神，培养学生分析和解决实际问题的能力．     

相对论速调管中间腔与调制电子束间的非线性互作用

在强流相对论电子束驱动的相对论速调管放大器中, 由于强流和高场强的影响, 尤其是中间腔具有高Q值, 微波腔与电子束之间的非线性作用很明显, 严重影响器件性能. 根据麦克斯韦方程组以及电子在微波场作用下运动方程给出了中间腔的束-波互作用自洽方程. 从这些方程出发, 研究了调制深度和调制频率对间隙电压幅度和相位的影响. 对比常规速调管的等效电路模型, 自洽公式给出的间隙电压幅值同粒子模拟结果更接近, 尤其是较高调制深度的情况. 同时器件带宽随调制深度的增加而变宽, 这也同粒子模拟结果一致. 由此设计了一个S波段高增益相对论放大器, 在LTD (长脉冲螺旋线)加速器上开展了相应的实验工作, 实验上获得了1.1 GW的输出功率, 器件增益49 dB. 关键词： 相对论速调管 非线性互作用 自洽方程     

Study of superradiance based on a low-voltage backward wave oscillator

According to the small size requirement for wide-band high-power microwave radiation, a superradiance backward wave oscillator (BWO) is proposed to generate such high-power microwave radiation with a low voltage (～20 kV) pulse power supply and low guiding magnet field (～0.1T). In order to get a high-efficiency C-band superradiance BWO with a low beam voltage and a low guiding magnet field, the mechanism of superradiance in a BWO is explored in particle-in-cell simulation. With the oversized structure, the simulation shows that a microwave power of 405 kW with a frequency of 5.6 GHz and a spectrum width of 500 MHz can be obtained with a voltage of 23 kV and magnetic field of 0.1 T.     

The dispersive properties of a dielectric-rod loaded waveguide immersed in a magnetized annular plasma

Propagation properties of electromagnetic waves in a dielectric-rod waveguide immersed in a magnetized annular plasma are presented in this paper. The dispersion relations are derived and calculated. The results show that the dielectric-rod loading can make the structure less dispersive and the transmission frequency-band broadened.     

等离子体加载螺旋线行波管特性研究

利用线性场理论和螺旋线的导电面模型，推导了在强引导磁场下，等离子体加载螺旋线慢波结构的色散关系.数值计算了在不同的等离子体填充密度与填充半径条件下，螺旋线的色散特性、耦合阻抗和行波管的小信号增益.研究发现，在螺旋线中填充了等离子体以后，形成了一种新的混合模式，螺旋线的色散特性与耦合阻抗都发生了很大的变化，行波管的增益得到显著提高. 关键词： 螺旋线行波管 等离子体 混合模式     

高增益相对论速调管放大器相位特性的模拟与实验研究

为实现高功率微波的相干功率合成, 开展了S波段高增益相对论速调管放大器输出微波相位特性的粒子模拟和实验研究, 粒子模拟与实验结果均表明电子回流是影响输出微波相位特性的主要因素. 在有效控制电子回流的情况下, 实验实现输出微波相位抖动小于± 10°, 锁相时间达90 ns. 以此计算, 若相位抖动在± 10° 内满足均匀分布, 十台该高增益相对论速调管放大器的功率合成效率将大于99%.     

Analysis of the axial electric field in a plasma-loaded-helix travelling wave tube

A helix type slow wave structure filled with plasma is immersed in a strong longitudinal magnetic field. Taking into account the effect of the plasma and the dielectric, the system is separated radially into three regions. By means of the sheath model and Maxwell equation, the distribution of the electromagnetic field is established. Using the boundary conditions of each region, the dispersion relation of the slow wave structure is derived. The trend of change for the radial profile of the axial electric field is analysed respectively in different plasma densities, plasma column radius and dielectric constant by numerical computation. Some useful results are obtained on the basis of the discussion.     

Mode control in a high gain relativistic klystron amplifier with 3 GW output power

Higher mode excitation is very serious in the relativistic klystron amplifier, especially for the high gain relativistic amplifier working at tens of kilo-amperes. The mechanism of higher mode excitation is explored in the FIC simulation and it is shown that insufficient separation of adjacent cavities is the main cause of higher mode excitation. So RF lossy material mounted on the drift tube wall is adopted to suppress higher mode excitation. A high gain S-band relativistic klystron amplifier is designed for the beam current of 13 kA and the voltage of 1 MV. PIC simulation shows that the output power is 3.2 GW when the input power is only 2.8 kW.     

有限磁场作用下等离子体背景中的切伦可夫不稳定性研究

 较高密度的相对论电子束注入等离子体中将会形成离子通道，在考虑了离子通道的影响下，推导出圆柱波导中更普遍的色散方程，并计算出考虑离子通道和不考虑离子通道效应时的色散关系及电磁波的增长率。