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S波段波导窗的设计

Design of an S-band Wave-guide Window
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摘要 采用高频结构模拟器(HFSS)建立波导窗物理模型,并计算波导窗内的电场分布、大小和方向,以及波导窗的射频参数如频率与带宽、输入电压驻波比,从而为改进波导窗提供了理论依据,并最终设计了一个适合5MW、45kW高功率传输的波导窗。 The paper introduces how to use high frequency structure simulator (HFSS) to establish a physical model of wave-guide window and calculate the distribution, magnitude and direction of electric field inside wave-guide window. In addition, some of RF parameters of wave-guide window such as frequency, bandwidth and VSWR are also calculated. All of these provide a thoroughly theoretic basis for how to improve the wave-guide window and ultimately a new-type of wave-guide window for transmitting peak power of 5 MW, average power of 45 kW is well designed.
出处 《原子能科学技术》 EI CAS CSCD 2004年第z1期58-61,共4页 Atomic Energy Science and Technology
关键词 波导窗 二次电子倍增效应 电子直线加速器 高功率传输 wave-guide window multipactor effect electron linear accelerators high-power transmission
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参考文献4

  • 1[1]Miura A, Matsumoto H, Yamaguchi S. Design of an S-band High Power Pillbox Type RF Window[A]. The 8th Symposium on Accelerator Science and Technology[C]. [s. l.]: [s. n.],1991, 150~152.
  • 2[2]Gallagher W J, The Multipactor Effect[J]. IEEE Trans Nucl Sci,1979,NS-26: 4 280~4 282.
  • 3[3]Miura A, Matsumoto H. Development of an Sband RF Window for Linear Colliders[J]. IEEE Particle Accelerator Conference, 1993. 2:1 124~1126.
  • 4[4]Jostingmeier A, Dohlus M, Holtkamp N. Systematic Design of S-band Pillbox-type RF Window:DESY-M-98-11H[R]. [s. l. ]:[s. n. ], 1998.

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