1) antiresonant reflecting optical waveguide(ARROW)
抗共振反射光波导
1.
The propagating properties of antiresonant reflecting optical waveguide(ARROW) are different from conventional ones.
抗共振反射光波导(ARROW)具有与传统光波导所不同的传播特性。
2) antiresonant reflecting
抗共振反射
1.
The structures,characteristics, operating principles and researches about Si-based total reflecting optical waveguide and antiresonant reflecting optical waveguide pressure sensors are briefly introduced.
简要介绍了全反射光波导和抗共振反射光波导压力传感器的结构特点、工作原理及其研究现状。
3) anti-resonant reflecting optical waveguide
反谐振反射光波导
1.
Study of an anti-resonant reflecting optical waveguide sensor;
新型反谐振反射光波导传感器的研究
2.
Among kinds of optical waveguides, anti-resonant reflecting optical waveguide is an appropriate choice to the optical waveguide sensors for its low loss, so investigation of it becomes significant.
反谐振反射光波导结构又以其能量损耗小的特点成为光波导传感器的合适选择,因此对反谐振反射型光波导传感器的研究具有重要的意义。
4) guided wave resonance
导波共振
1.
In this paper, we examine theoretically the GH shift under the conditions of guided wave resonance and surface plasmon resonance by using the stationary phase method a.
研究Goos-H?nchen位移有多种方法,本文采用Artmann发展的静态位相(stationary phase)方法和高斯光束下的数值计算方法,主要研究了导波共振和表面等离子波共振时GH位移增强效应。
5) waveguide resonance
波导共振
1.
Combining with the amplitude distributions,the optical wave forms a waveguide resonance between two slits,the resonance at the front surface couples the incident energy into the slit,but the resonance at the back surface will couple the energy away from the metal layer.
结合振幅分布,认为光波在两狭缝形成波导共振,前表面狭缝的共振将入射波能量耦合进入狭缝中,后表面狭缝的共振将能量耦合出去,两个狭缝之间通过隧穿效应耦合。
6) Photoconductivity decay by microwave reflectance
微波反射光电导
补充资料:光波导
| 光波导 optical waveguide 由光透明介质(如石英玻璃)构成的传输光频电磁波的导行结构。光波导的传输原理是在不同折射率的介质分界面上,电磁波的全反射现象使光波局限在波导及其周围有限区域内传播。现代应用的光频的波长介于0.8~1.6微米之间。实用光波导有光导纤维、薄膜波导、带状波导3类。光导纤维的一个传输特性是衰减很小、频带很宽、抗电磁干扰,主要用于通信;光导纤维的另一传输特性是对外界的温度和压力等因素敏感,因而可制成光导纤维传感器,用于测量温度、压力、声场等物理量。薄膜波导与带状波导主要用于制作有源和无源的光波导元件,如激光器、调制器和光耦合器等。它们采用半导体薄膜工艺,适合于制成平面结构的集成光路(即光集成部件)。 |
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参考词条