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共轴环光子晶体的缺陷微腔特性
引用本文:刘晓杰, 雷虹, 余恬, 等. 共轴环光子晶体的缺陷微腔特性[J]. 强激光与粒子束, 2009, 21(08).
作者姓名:刘晓杰  雷虹  余恬  冯进军  廖复疆
作者单位:1.山东大学 信息科学与工程学院, 济南 2501 00;;;2.北京真空电子技术研究所 大功率微波电真空器件技术国防科技重点实验室, 北京 1 0001 6
摘    要:采用数值计算方法,模拟了共轴环光子晶体缺陷微腔的谐振模式场分布,计算了此微腔的品质因数和功率损耗,并分析其几何参数对谐振特性的影响。以此缺陷微腔为基础构建周期性慢波系统,讨论了该系统的色散特性。结果表明,微腔中能够存在单一的谐振模式,微腔的纵向长度和介质环介电常数对谐振特性影响较大。所构建的慢波系统有较宽的慢波频域,且慢波比曲线较为平坦。增大电子注开孔半径和减小周期长度对于提高工作频率及增加带宽较为有效。

关 键 词:光子晶体   缺陷微腔   功率损耗   品质因数   周期性慢波系统   色散特性

Characteristics of coaxial photonic crystal defect microcavity
liu xiaojie, lei hong, yu tian, et al. Characteristics of coaxial photonic crystal defect microcavity[J]. High Power Laser and Particle Beams, 2009, 21.
Authors:liu xiaojie  lei hong  yu tian  feng jinjun  liao fujiang
Affiliation:1. School of Information Science and Engineering,Shandong University,Ji’nan 250100,China;;;2. Vacuum Electronics National Laboratory,Beijing Vacuum Electronics Research Institute,Beijing 100016,China
Abstract:The field-pattern of various defect modes in the coaxial photonic crystal microcavity has been simulated using the numerical calculation method. The quality factor (Q-factor) and power loss of the microcavity have been calculated and the effect of geometrical parameters on the resonance characters was analyzed. Based on the defect microcavity, a periodic slow-wave system was constructed and the dispersion relation of this system has been discussed. The results indicate that a single defect mode can be gained in the microcavity and the resonance characters are sensitively affected by the longitudinal length of the cavity and the dielectric constant of medium rings. The slow-wave system has presented a good dispersion property and a relatively smooth slow-wave ratio curve with a wide range o
Keywords:photonic crystal  defect microcavity  power loss  quality factor  periodic slow-wave system  dispersion
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