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基于腔微扰理论的微波铁氧体铁磁共振有效线宽测量原理与方法 被引量:2

Test principle and method for ferromagnetic resonance linewidth of microwave ferrite based on resonant-cavity perturbation theory
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摘要 基于腔微扰理论,提出了一种微波铁氧体铁磁共振有效线宽的测量方法和测量系统。系统主要包括高Q圆柱谐振腔、可编程电磁铁,计算机控制的矢量网络分析仪等。测试过程采用ABA方法提高谐振腔谐振频率f和Q的测量精度,采用Math CAD进行数据处理和曲线拟合,有效线宽测量结果具有较高精度。在9.8GHz时样品直径3mm、厚度1mm的多晶YIG圆片高场有效线宽为0.45±0.25Oe,接近单晶YIG的内禀线宽。 A measuring method and system was developed for microwave effective linewidth based on resonant-cavity perturbation theory. The measurement system consists of high-Q cylindrical resonant-cavity, programmable static magnetic field source and computer controlled vector network analyzer. ABA method was used to improve the test accuracy of resonant frequencyf and quality factorQ, and data processing and curve fitting were performed using MathCAD for high test accuracy of effective linewidth. The test result of high field effective linewidth for a 3mm in diameter and 1mm thick polycrystalline yttrium iron garnet(YIG) disk is 0.45Oe±0.25Oe,approximating the intrinsic linewidth of single crystal YIG.
作者 赵勇 蒋运石 石成玉
机构地区 西南应用磁学研究所
出处 《磁性材料及器件》 CAS 2015年第6期45-49,共5页 Journal of Magnetic Materials and Devices
基金 总装支撑预研项目(62401090401)
关键词 微波铁氧体 钇铁石榴石(YIG) 铁磁共振 有效线宽 腔微扰理论 测量 microwave ferrite ferromagnetic resonant linewidth effective linewidth cavity perturbation theory measurement
分类号 TM277 [一般工业技术—材料科学与工程] TM936 [电气工程—电力电子与电力传动]
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参考文献7

  • 1Patton C E. Effective linewidth due to porosity anisotropy in polycrystalline yittrium iron garnet and Ca-V-substituted yittrium iron garnet at 10GHz [J]. Phys Rev, 1969, 179(2): 352.
  • 2Patton C E. Microwave properties of fine grain polycrystalline yttrium iron garnet [J]. J Appl Phys, 1970, 41(3): 1355.
  • 3Patton C E, Kohane T. Ultrasensitive technique for microwave susceptibility determination down to 10-5 [J]. Rev Sci Instr, 1972, 43(1):76.
  • 4Truedson J R, McKinstry K D, Kabos P, et al. High-field effective linewidth and eddy current losses in moderate conductivity single-crystal M-type barium hexagonal ferrite disks at 10-60GHz [J]. JAppl Phys, 1993, 74(4): 2705.
  • 5Mo N, Song Y, Patton C E. High-field microwave effective linewidth in polycrystalline ferrites: Physical origins and intrinsic limits [J]. JAppl Phys, 2005, 97: 093901.
  • 6Mo N, Green Jerome J, Beitscher B A, et al. High precision metrology based microwave effective linewidth measurement technique [J]. Rev Sci Instr, 2007, 78: 113903.
  • 7Mo N, Green J J, Krivosik P, et al. The low field microwave effective linewidth in polycrystalline ferrites [J]. JAppl Phys, 2007, 101: 023914.

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磁性材料及器件
2015年 第6期

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