Sub-wavelength grating for enhanced ring resonator biosensor

While silicon photonic resonant cavities have been widely investigated for biosensing applications, enhancing their sensitivity and detection limit continues to be an area of active research. Here, we describe how to engineer the effective refractive index and mode profile of a silicon-on-insulator...

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Vydané v:Optics express Ročník 24; číslo 14; s. 15672 - 15686
Hlavní autori: Flueckiger, Jonas, Schmidt, Shon, Donzella, Valentina, Sherwali, Ahmed, Ratner, Daniel M., Chrostowski, Lukas, Cheung, Karen C.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: United States 11.07.2016
Predmet:
Biosensing Techniques - instrumentation
Equipment Design
Limit of Detection
Optics and Photonics
Photons
Refractometry
Silicon
ISSN:1094-4087, 1094-4087
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Abstract While silicon photonic resonant cavities have been widely investigated for biosensing applications, enhancing their sensitivity and detection limit continues to be an area of active research. Here, we describe how to engineer the effective refractive index and mode profile of a silicon-on-insulator (SOI) waveguide using sub-wavelength gratings (SWG) and report on its observed performance as a biosensor. We designed a 30 μm diameter SWG ring resonator and fabricated it using Ebeam lithography. Its characterization resulted in a quality factor, Q, of 7 · 10 , bulk sensitivity Sb = 490 nm/RIU, and system limit of detection sLoD = 2 · 10 RIU. Finally we employ a model biological sandwich assay to demonstrate its utility for biosensing applications.
AbstractList While silicon photonic resonant cavities have been widely investigated for biosensing applications, enhancing their sensitivity and detection limit continues to be an area of active research. Here, we describe how to engineer the effective refractive index and mode profile of a silicon-on-insulator (SOI) waveguide using sub-wavelength gratings (SWG) and report on its observed performance as a biosensor. We designed a 30 μm diameter SWG ring resonator and fabricated it using Ebeam lithography. Its characterization resulted in a quality factor, Q, of 7 · 103, bulk sensitivity Sb = 490 nm/RIU, and system limit of detection sLoD = 2 · 10-6 RIU. Finally we employ a model biological sandwich assay to demonstrate its utility for biosensing applications.
While silicon photonic resonant cavities have been widely investigated for biosensing applications, enhancing their sensitivity and detection limit continues to be an area of active research. Here, we describe how to engineer the effective refractive index and mode profile of a silicon-on-insulator (SOI) waveguide using sub-wavelength gratings (SWG) and report on its observed performance as a biosensor. We designed a 30 μm diameter SWG ring resonator and fabricated it using Ebeam lithography. Its characterization resulted in a quality factor, Q, of 7 · 10 , bulk sensitivity Sb = 490 nm/RIU, and system limit of detection sLoD = 2 · 10 RIU. Finally we employ a model biological sandwich assay to demonstrate its utility for biosensing applications.
Author Sherwali, Ahmed
Ratner, Daniel M.
Schmidt, Shon
Donzella, Valentina
Flueckiger, Jonas
Chrostowski, Lukas
Cheung, Karen C.
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  surname: Schmidt
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  surname: Chrostowski
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  givenname: Karen C.
  surname: Cheung
  fullname: Cheung, Karen C.
BackLink https://www.ncbi.nlm.nih.gov/pubmed/27410840$$D View this record in MEDLINE/PubMed
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Snippet While silicon photonic resonant cavities have been widely investigated for biosensing applications, enhancing their sensitivity and detection limit continues...
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StartPage 15672
SubjectTerms Biosensing Techniques - instrumentation
Equipment Design
Limit of Detection
Optics and Photonics
Photons
Refractometry
Silicon
Title Sub-wavelength grating for enhanced ring resonator biosensor
URI https://www.ncbi.nlm.nih.gov/pubmed/27410840
https://www.proquest.com/docview/1804859310
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