Direct optimization of Y-branch silicon nitride optical waveguide for evanescent field biosensor

机译：用于渐逝场生物传感器的Y分支氮化硅光波导的直接优化

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Evanescent field had been widely used in bio and chemical sensors. However in most cases, evanescent field is not maximized and consequently produced an unoptimized sensor performance. It is the aim of the paper to optimize the design of 1∶2 Y-branch splitter optical waveguide through simulation by using FD-BPM. Y-branch splitter are simulated to optimize the power loss. Width of waveguide and effective angle are manipulated in the power loss optimization. The result shows that evanescent field is maximized at optimized thickness and width. The result suggests that Y -branch splitter with width of 25µm and effective angle of 6.24° is the best design for evanescent field sensor application with both high sensitivity and signal to noise ratio.

机译：蒸发田已广泛用于生物和化学传感器。然而，在大多数情况下，渐逝场不会最大化，因此产生了未优化的传感器性能。本文的目的是通过使用FD-BPM来优化1:2 Y分支分离器光波导的设计。模拟Y分支分配器以优化功率损耗。在功率损耗优化中操纵波导和有效角度的宽度。结果表明，渐逝场以优化的厚度和宽度最大化。结果表明，宽度为25μm且有效角度为6.24°的Y -Branch分离器是对渐逝场传感器应用具有高灵敏度和信噪比的最佳设计。

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《IEEE International Conference on Photonics》|2013年||共3页
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Khor K.N.; Shahimin M.M.; Adikan F.R.M.;
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中图分类光学;
关键词
Beam propagation method; Integrated; optimization; splitter;

机译：光束传播方法;综合;优化;分离器;

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专利

1. Evanescent field optimization on Y-branch silicon nitride optical waveguide for biosensing [J] . Reshak A. H., Shahimin M. M., Khor K. N., Materials Letters . 2016,第juna15期

机译：Y分支氮化硅光波导在生物传感中的瞬逝场优化
2. A simple silica-on-silicon technology-compatible design of 1×8 optical splitter based on field matching Y-branch with S-bend sine taper and arc waveguide [J] . Sona Das, Suchandan Pal Journal of Optics . 2009,第3期

机译：基于具有S形正弦锥度和弧形波导的场匹配Y分支的1×8分光器的简单硅技术兼容设计
3. Silicon oxynitride waveguides as evanescent-field-based fluorescent biosensors [J] . F J Aparicio, E Froner, E Rigo, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2014,第40期

机译：氮氧化硅波导作为基于e逝场的荧光生物传感器
4. Direct optimization of Y-branch silicon nitride optical waveguide for evanescent field biosensor [C] . Khor K.N., Shahimin M.M., Adikan F.R.M. IEEE International Conference on Photonics . 2013

机译：optimization逝场生物传感器的Y分支氮化硅光波导的直接优化
5. Thin film integrated optical waveguides for biosensing using local evanescent field detection. [D] . Stephens, Matthew David. 2010

机译：集成有薄膜的光波导，用于使用局部渐逝场检测进行生物传感。
6. Silicon coupled-resonator optical-waveguide-based biosensors using light-scattering pattern recognition with pixelized mode-field-intensity distributions [O] . Jiawei Wang, Zhanshi Yao, Ting Lei, -1

机译：基于光耦合模式识别和像素化模式场强度分布的基于硅耦合谐振器光波导的生物传感器
7. Polymer slab waveguides for the optical detection of nanoparticles in evanescent field based biosensors [O] . Teigell Beneitez, Nuria, Missinne, Jeroen, Orsel, Joke, 2014

机译：聚合物平板波导用于在基于消逝场的生物传感器中光学检测纳米颗粒

Direct optimization of Y-branch silicon nitride optical waveguide for evanescent field biosensor

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