Hybrid Photonic Crystal-Surface Plasmon Polariton Waveguiding System for On-Chip Sensing Applications

In this paper, a hybrid optical guiding system based on low group velocity offered by photonic crystal (PhC) waveguides and vertical confinement as well as high field enhancement of. Surface lasmon polaritons (SPP) is proposed. We show that for efficient sensing, conventional two-dimensional PhC waveguides with finite height require a high aspect ratio in the order of 30 in order to efficiently confine the guiding mode. The fabrication of devices with such a high aspect ratio is considered too challenging and inefficient for mass production. By combining a PhC waveguide and SPPs, the proposed system efficiently confines the optical mode vertically while benefiting from the lateral confinement enabled by PhC structures. As a result, the required aspect ratio drops to about 4 making the fabrication in large scale feasible. This design provides strong light-matter interaction within small dimensions, which is beneficial for miniaturizing on-chip photonic sensors.

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Low-Threshold Single-Mode Lasing from InP-based Double-Lattice Photonic Crystal Surface Emitting Lasers with High-Aspect-Ratio Air Holes

10.1109/islc51662.2021.9615636 ◽

2021 ◽

Author(s):

Yuhki Itoh ◽

Naoya Kono ◽

Naoki Fujiwara ◽

Hideki Yagi ◽

Tomokazu Katsuyama ◽

...

Keyword(s):

Photonic Crystal ◽

Aspect Ratio ◽

High Aspect Ratio ◽

Crystal Surface ◽

Single Mode ◽

Surface Emitting Lasers ◽

Low Threshold ◽

Emitting Lasers

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Fabrication of high Aspect-Ratio Si Pillar-based Hybrid plasmonic-photonic Crystal Waveguides for ultra-sensitive Infrared Gas-sensing Applications

2021 32nd Annual SEMI Advanced Semiconductor Manufacturing Conference (ASMC) ◽

10.1109/asmc51741.2021.9435707 ◽

2021 ◽

Author(s):

Gerald Stocker ◽

Jasmin Spettel ◽

Thomas Grille ◽

Thomas Ostermann ◽

Reyhaneh Jannesari ◽

...

Keyword(s):

Photonic Crystal ◽

Aspect Ratio ◽

High Aspect Ratio ◽

Gas Sensing ◽

Photonic Crystal Waveguides ◽

Sensing Applications

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ZnO Modified High Aspect Ratio Carbon Electrodes for Hydrogen Sensing Applications

Procedia Engineering ◽

10.1016/j.proeng.2011.12.413 ◽

2011 ◽

Vol 25 ◽

pp. 1669-1672 ◽

Cited By ~ 3

Author(s):

Umesh Singh ◽

Hyun Ae Lee ◽

Young-Chul Byun ◽

Amit Kumar ◽

Sudipta Seal ◽

...

Keyword(s):

Aspect Ratio ◽

High Aspect Ratio ◽

Carbon Electrodes ◽

Hydrogen Sensing ◽

Sensing Applications

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Large‐scale Micropillar 3D Patterning with High‐aspect Ratio Using a Theta‐pipette

Advanced Engineering Materials ◽

10.1002/adem.202100990 ◽

2021 ◽

Author(s):

Xiaobo Liao ◽

Jian Zhuang ◽

Jiulin Yang ◽

Lei Cheng ◽

Qiangqiang Zheng ◽

...

Keyword(s):

Aspect Ratio ◽

High Aspect Ratio ◽

Large Scale

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Opto-Mechanical Photonic Crystal Cavities for Sensing Application

Applied Sciences ◽

10.3390/app10207080 ◽

2020 ◽

Vol 10 (20) ◽

pp. 7080

Author(s):

Ji Xia ◽

Qifeng Qiao ◽

Guangcan Zhou ◽

Fook Siong Chau ◽

Guangya Zhou

Keyword(s):

Photonic Crystal ◽

Light Propagation ◽

Mass Force ◽

Mechanical Interaction ◽

Quality Factors ◽

Photonic Crystal Cavities ◽

New Class ◽

Experimental Systems ◽

Sensing Applications ◽

On Chip

A new class of hybrid systems that couple optical and mechanical nanoscale devices is under development. According to their interaction concepts, two groups of opto-mechanical systems are summarized as mechanically tunable and radiation pressure-driven optical resonators. On account of their high-quality factors and small mode volumes as well as good on-chip integrability with waveguides/circuits, photonic crystal (PhC) cavities have attracted great attention in sensing applications. Benefitting from the opto-mechanical interaction, a PhC cavity integrated opto-mechanical system provides an attractive platform for ultrasensitive sensors to detect displacement, mass, force, and acceleration. In this review, we introduce basic physical concepts of opto-mechanical PhC system and describe typical experimental systems for sensing applications. Opto-mechanical interaction-based PhC cavities offer unprecedented opportunities to develop lab-on-a-chip devices and witness a promising prospect to further manipulate light propagation in the nanophotonics.

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