1.
Characteristic Study on Different Conductivity Fundus Chiral Media;
不同电导率基底旋波介质手性参量的特性研究
2.
A method to measure chiral parameter is given.
实验表明,手性螺旋的浓度可以做为调节旋波介质吸波性能的一个灵敏参量。
3.
Spiral Formation and Evolution in Dielectric Barrier Discharge;
介质阻挡放电中螺旋波的形成与演化
4.
Spiral Waves and Spatiotemporal Chaos Control in Excitable Media by Using Coupling Method;
可激发介质螺旋波和时空混沌耦合控制研究
5.
Investigation of Second Order Nonlinear Optical Activity and Surface Second-Harmonic Generation in Chiral Media;
手性介质二阶非线性旋光与表面二次谐波研究
6.
Stability Analysis of Ka-band TE_(01)-mode Gyrotron Traveling Wave Amplifier with Lossy Dielectric-Load Waveguide
损耗介质加载结构Ka波段TE_(01)模回旋行波管放大器稳定性的分析
7.
Research on Circular Dielectric Optical Waveguides Coupler with a Weak Rotatory Effect
微弱旋转效应的圆柱形介质光波导耦合器的研究
8.
Our product offering dielectric products includes dielectric filters, dielectric duplexers, dielectric antenna, dielectric resonator.
介质产品包括介质滤波器,介质双工器,介质天线,介质谐振器。
9.
There is a best matched point of chiral spring concentration between3.2% to4.0%, which should be considered when the chiral absorbing materials are designed for wide absorbing band applications.
在设计高吸收宽频段的手征性吸波材料时,应考虑螺旋体在手性介质中的浓度匹配。
10.
The experimental design, the sample preparation, and the measurement technique are discussed.
在非手性基体中加入适当浓度的螺旋体可有效提高手性介质的吸波性能。
11.
dielectric materials for microwave resonator
微波谐振器介质材料
12.
distributes sound waves evenly.
能均匀传播声波的介质。
13.
anisotropic dielectric waveguide
各向异性电介质波导
14.
Rotating azimuthon in strongly nonlocal nonlinear media
强非局域非线性介质中的旋转涡旋光孤子
15.
A New ZnO-SiO_2 Low Dielectric Constant High Frequency Microwave Dielectric Ceramics;
新型ZnO-SiO_2低介高频微波介质陶瓷研究
16.
(Mg_(1-x)Zn_x)Al_2O_4 Low Dielectric Constant Microwave Dielectric Ceramics;
(Mg_(1-x)Zn_x)Al_2O_4低介电常数微波介质陶瓷
17.
Investigation on Permittivity Measurement Methods of Microwave Dielectric Materials;
微波介质材料介电常数测试方法研究
18.
Reseach of Properties and Microstructures for Al_2O_3-TiO_2 Low Permittivity Microwave Dielectric Ceramics;
Al_2O_3-TiO_2系低介微波介质陶瓷的研究