Sensitivity Comparison of Integrated Mid-Infrared Silicon-Based Photonic Detectors

Integrated silicon photonics in the mid-infrared is a promising platform for cheap and miniaturized chemical sensors, including gas and/or liquid sensors for environmental monitoring and the consumer electronics market. One major challenge in integrated photonics is the design of an integrated detec...

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Bibliographic Details
Published in:Proceedings
Main Authors: Cristina Consani, Thomas Söllradl, Christian Ranacher, Andreas Tortschanoff, Lukas Rauter, Gerald Pühringer, Thomas Grille, Peter Irsigler, Bernhard Jakoby
Format: Article
Language:English
Published: MDPI AG 2018-11-01
Subjects:
silicon photonics
mid-infrared detectors
cavity-enhanced resonant detector
integrated photonics
Online Access:https://www.mdpi.com/2504-3900/2/13/796
Description
Summary:Integrated silicon photonics in the mid-infrared is a promising platform for cheap and miniaturized chemical sensors, including gas and/or liquid sensors for environmental monitoring and the consumer electronics market. One major challenge in integrated photonics is the design of an integrated detector sensitive enough to detect minimal changes in light intensity resulting from, for example, the absorption by the analyte. Further complexity arises from the need to fabricate such detectors at a high throughput with high requirements on fabrication tolerances. Here we analyze and compare the sensitivity of three different chip-integrated detectors at a wavelength of 4.17 µm, namely a resistance temperature detector (RTD), a diode and a vertical-cavity enhanced resonant detector (VERD).
ISSN:2504-3900

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