Presented in this dissertation are theoretical analysis , particle simulation and experimental studies on the physical mechanism of the milo . a series of reasonable and valuable results are obtained from this work 本文从解析推导,粒子模拟以及实验研究三个方面对磁绝缘线振荡器的基本物理过程进行了研究,得到了合理而有价值的结果。
The magnetically insulated transmission line oscillator ( milo ) is a coaxial crossed - field device . there exists great importance in the investigation either into the fundamental physics related to the beam - wave interaction or into the rule of electron movement in this device 磁绝缘线振荡器( milo )是一种同轴正交场器件,深入研究其内部的电子运动规律和束波相互作用的物理机制具有重要意义。
The uniformity of digital cable core insulation diameter is one of the important factors influencing the transmission capability . it is necessary for quality control of the digital cable core production line to measure the core insulation diameter precisely on - line 绝缘线芯直径的均匀性是影响数字通信电缆传输性能的重要因素,快速准确地在线检测绝缘线芯直径是控制数字通信电缆质量的关键所在。
As pointed out earlier , those sources eliminate the need for a heavy external magnet . two hpm sources magnetically insulates line oscillator ( milo ) and the reltron have been researched and improved . finally , a new high power microwave source , the axial acceletron is presented in this paper 首先对几种高功率窄带微波源进行了评估,然后着重研究无引导磁场最具备代表性的两种器件,磁绝缘线振荡器( milo )和super - reltron ,并提出了改进的措施。
In order to improve the circuit ' s input impedance , which is affected by insulating resistance of electrode leading wire , terminals and printed circuit board , electrode is connected to the meter through insulating wire of high impedance which is directly welded in the printed circuit board with insulating ring . the deviation of electrode is corrected by software and the algorithm is given 使用高阻绝缘线连接电极,并将高阻绝缘线直接焊在加有绝缘环的印刷线路板上,从而消除电极引线、接线端子和印刷线路板漏电对放大电路输入阻抗的影响;软件校正电极偏差,并给出校准算法。