Difference between revisions of "Sensors for harsh environments"
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− | + | Optical sensors are of particular interest for applications in harsh environments. | |
+ | |||
+ | '''By harsh environments, we mean:''' | ||
+ | *In explosive environments | ||
+ | *Under high electromagnetic perturbations | ||
+ | *Close to high static magnetic sources (MRI for example) | ||
+ | |||
+ | <gallery widths=200px heights=150px> | ||
+ | File:IRMmesureJuin2010b.JPG|Test of a multimode optical gyroscope inside an MRI scanner | ||
+ | File:FibreEnterrée.jpg|Optical fibre embbeded in aluminium by thermal projection | ||
+ | File:TestCapteurForce.jpg|Test of an MRI compatible optical force sensor | ||
+ | </gallery> | ||
+ | |||
+ | '''Optical sensors developed:''' | ||
+ | *Smart material using embedded optical fibres (collaboration with LERMPS and LEME) | ||
+ | *Single block MRI compatible optical force sensor (collaboration with the AVR team in ICube) | ||
+ | *Hydrogen optical fibre sensor using plasmonic resonance (collaboration with University of Delft) | ||
+ | *Highly accurate absolute distance measurement |
Latest revision as of 12:39, 20 October 2021
Optical sensors are of particular interest for applications in harsh environments.
By harsh environments, we mean:
- In explosive environments
- Under high electromagnetic perturbations
- Close to high static magnetic sources (MRI for example)
Optical sensors developed:
- Smart material using embedded optical fibres (collaboration with LERMPS and LEME)
- Single block MRI compatible optical force sensor (collaboration with the AVR team in ICube)
- Hydrogen optical fibre sensor using plasmonic resonance (collaboration with University of Delft)
- Highly accurate absolute distance measurement