Optical Feedback Interferometry Flowmetry Sensor in Microfluidics Chip

Julien Perchoux 1 Yu Zhao 1, 2 Thierry Camps 2 Véronique Bardinal 2
1 LAAS-OSE - Équipe Optoélectronique pour les Systèmes Embarqués
LAAS - Laboratoire d'analyse et d'architecture des systèmes [Toulouse]
2 LAAS-MICA - Équipe MICrosystèmes d'Analyse
LAAS - Laboratoire d'analyse et d'architecture des systèmes [Toulouse]
Abstract : Optical feedback interferometry (OFI) applied to microscale flow sensing is studied theoretically and experimentally. A new model is investigated that predicts the OFI signal. This model is based on the Lang-Kobayashi equations and highlights the importance of the laser beam propagation and the laser-particle scattering performances. For the first time, the angle distribution of the scattered light is involved in the model. The model evaluates the impact on the OFI signal of the light propagation in the micro-scale channel geometry. The flow rate measurement shows good agreement with the model.
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Journal articles
Proceedings, MDPI, 2017, 1 (4), pp.507. 〈10.3390/proceedings1040507〉
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Julien Perchoux, Yu Zhao, Thierry Camps, Véronique Bardinal. Optical Feedback Interferometry Flowmetry Sensor in Microfluidics Chip. Proceedings, MDPI, 2017, 1 (4), pp.507. 〈10.3390/proceedings1040507〉. 〈hal-01611672〉

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