Difference between revisions of "Sensors for harsh environments"

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:

‎

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

@@ Line 1: / Line 1: @@
-[[fr:Capteur en milieux sévères]]
+Optical sensors are of particular interest for applications in harsh environments.
-The optical sensors have a specific interest for applications in harsh environments.
 '''By harsh environments, we mean:'''
-:Around explosive materials
+*In explosive environments
-:Under high electromagnetic perturbations
+*Under high electromagnetic perturbations
-:Close to high static magnetic source (MRI for example)
+*Close to high static magnetic sources (MRI for example)
 <gallery widths=200px heights=150px>
-File:FibreEnterrée.jpg|Fibre in aluminium by thermic projection
+File:IRMmesureJuin2010b.JPG|Test of a multimode optical gyroscope inside an MRI scanner
-File:TestCapteurForce.jpg|Test of an optical force sensor MRI compatible
+File:FibreEnterrée.jpg|Optical fibre embbeded in aluminium by thermal projection
-File:IRMmesureJuin2010b.JPG|Test of a multimode optical gyroscope inside a MRI
+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