1) optical planar waveguide devices
平面光波导器件
2) planar waveguide devices
平面型波导器件
4) planar optical waveguide
平面光波导
1.
Effect of post treatment on planar optical waveguide of ion-exchanged phosphate glass;
后处理对离子交换磷酸盐玻璃平面光波导的影响
2.
Through optimization of process technology, we obtained high-quality waveguide film layer and fabricated low-loss planar optical waveguide and AWG devices whose propagation loss is less than 0.
1 dB/cm的平面光波导和阵列波导光栅(AWG)器件。
3.
The key technology and application of planar optical waveguide are analyzed,and different kinds of planar optical waveguide devices including silicon-based silicon dioxide deposition waveguide,LiNbO3 waveguide incorporating a metal film,polymer waveguide,are presented.
分析了平面光波导器件的关键技术及其应用情况。
5) Planar lightwave circuit
平面光波导
1.
Based on the Cesaro means of Fourier series and the mathematical equivalence between structural parameters of the lattice-form and the birefringent interleavers,a new method for designing planar lightwave circuit(PLC)-type lattice-form interleavers is proposed.
根据傅里叶级数的Cesaro方法和格子结构型与双折射型光交错复用器结构参数之间的数学等效关系,提出一种格子结构平面光波导光交错复用器结构设计的新方法。
2.
The Y branch is the fundamental structure in the planar lightwave circuit, and the property of its output is analyzed in this paper.
文章分析了平面光波导 Y分支的输出特性 ,通过优化 Y分支中扩模波导的长度和插入一根适当长度直波导对 Y分支的输出均匀性进行了优化 ,通过这种优化设计可以获得具有均匀输出特性的 Y分
3.
The Y-branch and multimode interferometric (MMI) structure are used in many kinds of planar lightwave circuits, and the symmetrical output of Y-branch or MMI structure takes important role in these apparates.
Y分支和多模干涉结构广泛应用于平面光波导器件中 ,在这些器件中 ,Y分支和多模干涉结构输出对称性具有重要意义。
6) planar optical waveguides
平面光波导
1.
Study on a new method monitoring chemical and biochemical reaction timely for planar optical waveguides;
平面光波导用于实时测试生化反应新方法的研究
2.
The research progress and the facing difficulties of active/passive planar optical waveguides were systematically summarized and reviewed in this paper.
平面光波导是光集成的基础结构。
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)。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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