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磁光学的
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     Magnetic deflection yokes
     偏转线圈
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     Magnetic Shift
     移位
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     The Progress of Luminescence
     发光学的进展
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     The Teaching Structure of Optics
     光学的教学结构
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  magnetooptic
Borate Glasses with Paramagnetic Dopants-A New Magnetooptic Material for the IR Spectral Range
      
It is found that the glasses are characterized by high magnitudes of the Faraday rotation and the magnetooptic figure of merit in the spectral range 1.3-1.5 μm.
      
The observed magnetooptic and optical properties of glasses are explained by the formation of magnetic-ordered nanosized particles that are similar to manganese ferrite in structure and properties.
      
A simple and effective setup for in situ investigations of the surface magnetooptic Kerr effect in ultrahigh vacuum
      
A simple and inexpensive device rather sensitive to studies of magnetic properties of very thin (0.5-0.6 nm) ferromagnetic films by the surface magnetooptic Kerr effect (SMOKE) method in ultrahigh vacuum (UHV) conditions is described.
      
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In curvilinear orthogonal coordinates and in six dimensional phase space themotion equations of phase point of particle beam congregation was derived formagnetostatic optical component. In accordance with these equations, the sixdimensional linear transfer matrixes of bending magnet was given. The moreaccurate expression of pulse duration including the coupling effect of the radialand phase motion was presented.

本文给出在实空间为平面曲线坐标和相空间为六维循环坐标的情况下,离子束团在静磁光学元件的六维相点运动方程组,从此方程出发导出了偏转磁铁的六维线性传输矩阵,并进而给出了由于横向对纵向的耦合效应所引起的脉冲宽度修正公式。

We report a theoretical study of state-selective differential single-electron capture cross sections between Na + and Rb(5s, 5p) atoms. The experimental data have been obtained with laser cooled target in a magnetic optical trap. We also report a theoretical study of transfer ionization of He by protons at high collision energies and analyze the transfer ionization cross section with respect to single electron capture cross section in terms of a shakeoff model.

介绍了对于Na+ 离子和Rb(5s ,5p)原子碰撞中态选择单电子俘获微分截面的理论计算 ,并与实验数据进行比较 ,实验结果是离子与在磁光学阱中用激光冷却的碱金属靶原子碰撞而测量到的 ;还对高能量质子引起的He原子的转移电离进行了理论研究 ,在Shakeoff模型的基础上 ,分析解释了转移电离截面与单电子俘获截面的比值 ,并与最新实验结果作了比较 .

During the last two decades, more and more interests have been drawn to the polymer/clay nanocomposite. Compared with conventional filler filled composites or fiber-reinforced composites, polymer/clay nanocomposites possess increased moduli, strength and heat distortion temperature, as well as decreased gas permeability and flammability without losing the light weight, transparency and good flowability of matrical polymer. The synthesis, structure and properties of the polymer/clay nanocomposite were elucidated....

During the last two decades, more and more interests have been drawn to the polymer/clay nanocomposite. Compared with conventional filler filled composites or fiber-reinforced composites, polymer/clay nanocomposites possess increased moduli, strength and heat distortion temperature, as well as decreased gas permeability and flammability without losing the light weight, transparency and good flowability of matrical polymer. The synthesis, structure and properties of the polymer/clay nanocomposite were elucidated. It is believed that polymer/clay nanocomposites will have a great application potential in many fields.

聚合物/层状粘土纳米复合材料是近十几年的研究热点。与传统颗粒增强或纤维增强聚合物基复合材料相比,含有2%~5%质量分数的粘土就使复合材料的模量和热变形温度显著提高,强度提高,并具有良好的阻燃性、防气体透过性以及电、磁、光学方面的特性,同时保持了聚合物材料质轻、透明和良好的流动性。介绍了聚合物/层状粘土纳米复合材料的制备方法、结构和性能,认为今后聚合物/层状粘土纳米复合材料在众多领域将会有可观的应用前景。

 
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