magnetostatic wave

  • 网络静磁波
magnetostatic wavemagnetostatic wave
  1. A Study on Dispersion Characteristics of Magnetostatic Wave

    静磁波色散特性研究

  2. Magnetostatic Wave Propagation Characteristics under Normal Nonuniform Bias Magnetic Field

    垂直不均匀磁场中静磁波的传播特性

  3. Magnetostatic Wave Technology and Its Applications

    静磁波技术及其应用

  4. Explore of New Structure for Magnetostatic Wave DelayLine in Rectangular Waveguide

    波导静磁波延迟线的新结构探究

  5. Development of Magnetostatic Wave Devices

    静磁波器件研究进展

  6. Properties of magnetostatic wave propagating in YIG waveguide under inclined magnetization

    斜向磁化的YIG波导中静磁波传播特性

  7. Dispersion Characteristics of the Magnetostatic Wave in an Anisotropic YIG Film Magnetized in an Arbitrary Direction

    任意方向磁化磁各向异性单晶YIG薄膜中静磁波色散特性

  8. Magnetooptic effects and properties of magnetostatic wave propagation in YIG GGG waveguide under inclined bias magnetic field

    斜向静磁场中的薄膜磁光效应和静磁波传播特性

  9. Theory of Magnetostatic Wave Propagation and Magnetooptic Bragg Diffraction in YIG GGG Waveguide Under Nonuniform Bias Magnetic Field

    不均匀磁场中的静磁波传播和导波光衍射理论

  10. In this paper , the coupling optical mode amplitude equations under the perturbation of magnetostatic wave ( MSW ) have been derived with a new perturbation method ;

    利用新的微扰方法导出了层状YIG薄膜波导中静磁波微扰下的光模式耦合振幅方程;

  11. A dispersion equation for magnetostatic wave ( MSW ) propagating in a multiple layer structure with double ground and magnetized in arbitrary direction is derived .

    本文导出了任意方向磁化且双面接地的多层薄膜结构中静磁波的色散方程;

  12. Magnetostatic wave ( MSW ) is a kind of slow dispersive wave propagating in magnetic medium , which is also a microwave electromagnetic wave . So the propagation characteristics of MSW can be controlled by bias magnetic fields .

    静磁波(MSW)是一种在磁性介质中传播的慢色散波,也是一种微波电磁波,可通过磁控方法改变静磁波的传播特性,并与具有电磁性的物质发生作用。

  13. An Effective Way to Control the Bandwidth of Magnetostatic Surface Wave Filter

    一种静磁表面波滤波器带宽控制的有效方法

  14. Optimum Design of Magnetostatic Surface Wave Delay Line Based on Non-Planar Ground Structure

    非平面接地静磁表面波延迟线的优化设计

  15. The Insertion Loss Analysis of Magnetostatic Surface Wave Elements

    静磁表面波器件插入损耗分析

  16. The Study of the Tunable Magnetostatic Surface Wave Bandpass Filter Based on Current Weighting

    电调谐电流加权静磁波带通滤波器研究

  17. The Influence of External Magnetic Field to the Energy Flow Deflection of Magnetostatic Surface Wave on Anti Ferromagnetic Films

    外偏场对反铁磁膜静磁表面波能流偏转的影响

  18. The Magnetostatic Surface Wave in Ion-Implanted YIG Films

    离子注入YIG薄膜中的静磁表面波

  19. The model of magnetostatic surface wave delay line based on non-planar ground structure is improved , and the quadratic recursive programming is adopted to optimize the device for the first time , thus a new way to design magnetostatic wave devices is offered .

    本文改进了非平面接地静磁表面波延迟线器件模型,并首次采用递归二次规划对器件结构进行了优化设计,为静磁波器件设计提供了新途径。

  20. A Study on Dispersion Characteristics of Magnetostatic Forward Volume Wave Delay Lines in Multi-layer Films

    复合层状薄膜结构静磁正向体波延迟线的色散特性研究

  21. Magnetostatic Backward Volume Wave Propagation in Double-Layered Magnetic Film Structure

    双磁性层结构中静磁后向体波的传播特性

  22. Study on interaction of MSFVW-GOW Noncollinear Interaction Between the Magnetostatic Forward Volume Wave and the Optical Guided Wave

    静磁前向体波-导光波相互作用研究静磁正向体波与导波光的非共线相互作用