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光子晶体微波加速结构的计算与设计 被引量:2

Simulation and Design of the Photonic Crystal Microwave Accelerating Structure
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摘要 用有限差分法计算了由金属棒分别按方形和三角形晶格分布的二维光子晶体的色散曲线,得出了带隙图.计算结果表明:对于三角形晶格,当金属棒半径和棒间距比值小于0.2时,由该种光子晶体构成的微波加速结构可约束主模、抑制高次模;用Microwave Studio软件模拟计算了三角形晶格分布的二维光子晶体加速结构,研究了新加速结构的RF参数与结构尺寸的关系,优化出一组RF频率为9.37GHz时此种加速腔的结构尺寸,计算还表明该种新加速结构具有较高的分路阻抗和品质因数. We have derived the global band gaps for general two-dimensional (2D) photonic crystal microwave accel- erating structures formed by square or triangular arrays of metal posts. A coordinate-space, finite-difference code was used to calculate the complete dispersion curves for the lattices. The fundamental and higher frequency global photonic band gaps were determined numerically. The structure formed by triangular arrays of metal posts with a missing rod at the center has advantages of higher-order-modes (HOM) suppression and main mode restriction under the condition of a/b 〈 0.2. The relationship between the RF properties and the geometrical parameters have been studied for the 9.37GHz photonic crystal accelerating structure. The Rs, Q, Rs/Q of the new structure may be comparable to the disk-loaded accelerating structure.
作者 宋瑞英 吴丛凤 何笑东 董赛
机构地区 中国科学技术大学国家同步辐射实验室
出处 《高能物理与核物理》 CSCD 北大核心 2007年第5期501-505,共5页 High Energy Physics and Nuclear Physics
基金 国家自然科学基金(10375060 10675116)资助~~
关键词 光子晶体 微波加速结构 有限差分法 带隙 抑制高次模 photonic crystals, microwave accelerating structure, finite-difference code, band gap, higher-order-modes(HOM) suppression
分类号 TL542.2 [核科学技术—核技术及应用]
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参考文献4

  • 1Adolphsen C,Bane K,Higo T et al.Phys.Rev.Lett.,1995,74:2475
  • 2Smirnova E I et al.Phys.Rev.Lett.,2005,95:074801
  • 3Cowan B.Photonic Crystal Laser-Driven Photonic Accelerator Structure.Proceedings of the 2005 Particle Accelerator Conference.IEEE,Knoxville,Tennessee,2005.2720
  • 4Smirnova E I et al.J.Appl.Phys.,2002,91:960

同被引文献12

  • 1陈勇,黄文会,唐传祥.Rhodotron型加速器粒子动力学研究[J].高能物理与核物理,2005,29(2):180-185. 被引量:6
  • 2徐鹏,陈怀璧,郑曙昕,高峰,盖炜,施嘉儒,关歆.X波段PBG加速结构的数值模拟和加工研究(英文)[J].高能物理与核物理,2007,31(7):678-682. 被引量:1
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  • 5Jongen Y, Abs M, Genin F, et al. The Rhodotron: a 10 MeV, 100 kW beam power metric waves, CW electron accelerator[C]//The 7th All-Union Conference on Applied Accelerators. 1992.
  • 6Korenev S. The concept of beam lines from Rhodotron for radiation technologies[C]//IEEE Particle Accelerator Conference. 2003,2:1015- 1016.
  • 7Abs M, Jongen Y, Poncelet E, et al. The IBA Rhodotron TT1000: a very high power E-beam accelerator[J]. Radiation Physics and Chemistry, 2004,71 : 285-288.
  • 8Bassaler J M, Baudrand H. Calculation of the resonance frequencies of the Rhodotron cavity using Green function[C]//3rd European Particle Accelerator Conference. 1992:898.
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高能物理与核物理
2007年 第5期

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