全面分析了磁光薄膜波导中磁化方向对微波静磁波传播模式的影响。
The dependence of propagation modes of microwave magnetostatic waves(MSWs) on the magnetization direction in magnetooptic film waveguides is analyzed comprehensively in the paper.
本文研究了斜向场下双层磁光薄膜波导中导波光与静磁正向体波之间的相互作用。
The present paper mainly studies the interaction between the guided optical waves (GOWs) and magnetostatic forward volume waves (MSFVWs) in a double layered waveguide under inclined magnetic field.
对磁光薄膜进行热磁模拟可以了解影响热磁记录过程的各种因素及这些因素间的相互关系以及它们对写入信息的影响。
It may be understood by simulating the thermomagnetic recording of magneto optical films all kinds of factors that affect thermomagnetic recording.
提出了一种基于梯度分割的图像特征提取方法,对低对比度磁光记录薄膜磁畴图像进行处理。
In this paper, we present a method to realize feature extraction on low contrast magnetic domain images of magneto-optical recording films.
我们主要注意磁光型存储的非晶态稀土-过渡金属合金薄膜和相变型光存储的非晶态半导体薄膜两个方面。
The main attention has been paid on amorphous rare earth- transition metal alloy films for magneto-optical storage and amorphous semiconductor films for phase change optical storage.
光纤把LED产生的励磁光传输给探测器尖端的薄膜涂层。
Optical fiber carries excitation light produced by the blue LED to the thin-film coating at the probe tip.
因此,在静磁波器件和以静磁波为基础的磁光器件中,使用具有感生单轴各向异性的磁性薄膜可以显著提高器件性能。
Thus, significant improvements in the device performance can be realized by using the magnetic film that possesses appropriate induced uniaxial anisotropy.
除此之外,尝试将已有的垂直磁性薄膜应用到磁光晶体。
In addition, I try to use ready perpendicular magnetic film to magnetic photon crystal.
研究表明:磁液薄膜具有良好的磁光双稳特性,可用作超长波红外波导器件。
Experiments show that the ferrofluid thin film behaves good characteristics of optical bistability and can be used as ultra-long wave optical waveguide devices.
介绍了计算磁光记录薄膜温度特性的基本原理,提出了RE - TM磁光记录薄膜温度特性计算的遗传算法。
In this paper, the basic calculation principle of the temperature dependence of saturation magnetization (Ms) of magneto-optical recording film is briefly introduced.
介绍了计算磁光记录薄膜温度特性的基本原理,提出了RE - TM磁光记录薄膜温度特性计算的遗传算法。
In this paper, the basic calculation principle of the temperature dependence of saturation magnetization (Ms) of magneto-optical recording film is briefly introduced.
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