Difference between revisions of "Micro and nanophotonics Instrumentation"

Latest revision as of 17:58, 17 December 2016

P. Montgomery, F. Anstotz, D. Montaner, F. Salzenstein, N. Javahiraly, R. Kiefer, S. Lecler, P. Pfeiffer, P. Twardowski

3D profil of a Fresnel micro-lens

This theme concerns work that contributes to the miniaturisation of photonic devices so as to be able to insert them into measurement microsystems or laser surface microstructuring processes. It concerns in particular:

4D multimodal microscopy,
the design and fabrication of subwavelength diffractive optical elements,
laser micro-etching using photonic jets,
the development of fibre optic sensors for harsh environments,
high resolution measurement of parameters such as distance.

In the future, this thematic will be divided in the two thematics:

Multimodal microscopy
Photonics instrumentation for healthcare

@@ Line 1: / Line 1: @@
+[[fr:Micro et nano photonique instrumentale]]
+'''P. Montgomery''', F. Anstotz, D. Montaner, F. Salzenstein, N. Javahiraly, R. Kiefer, S. Lecler, P. Pfeiffer, P. Twardowski
-F. Anstotz, D. Montaner, P. Montgomery, F. Salzenstein, N. Javahiraly, R. Kiefer, S. Lecler, P. Pfeiffer, B. Serio, P. Twardowski
+[[File:microlentille.jpg|frame|3D profil of a Fresnel micro-lens]]
-This theme concerns work that contributes to the miniaturisation of photonic devices so as to be able to insert them into measurement microsystems or laser surface microstructuring processes. It concerns in particular :
+This theme concerns work that contributes to the miniaturisation of photonic devices so as to be able to insert them into measurement microsystems or laser surface microstructuring processes. It concerns in particular:
-*the design and fabrication of subwavelength diffractive optical elements
+*4D multimodal [[Multimodal microscopy|microscopy]],
-*the detection of nanoparticles using photonic jets
+*the design and fabrication of subwavelength [[Innovative optical component design|diffractive optical elements]],
-*the development of microstructured fibre optic sensors based on photonic crystals or on the Sagnac effect
+*laser micro-etching using [[photonic jet|photonic jets]],
-*the measurement of parameters such as distance with high resolution
+*the development of fibre optic [[Sensors for harsh environments|sensors for harsh environments]],
-*micro- and nanothermography
+*high resolution measurement of parameters such as distance.
+In the future, this thematic will be divided in the two thematics:
-==interferometric microscopy==
+* Multimodal microscopy
+* Photonics instrumentation for healthcare
-:Scanning interference microscopy is a powerful technique based on far field imaging and interferometry that can be used for extracting information on micro- and nanostructures embedded in complex materials, devices and microsystems. Two topics are covered: 4D microscopy and techniques for complex layer analysis.
-:4D microscopy (3D+time) enables the 3D measurement in real time of surfaces that evolve over time, such as those found in soft materials, MicroElectroMechanical Systems (MEMS) and chemical reactions.
-:The second topic addresses the challenges of using interferometry to measure thick, semi-transparent or translucent layers of materials such as hydroxyapatite (biomaterials), colloids and polymers. These techniques are also useful for characterising nanostructured photonic devices developed in the theme Photonics Modeling and Simulation.
-:*[[Principle| Principle]]
-:*[[4D Microscopy|4D Microscopy]]
-:*[[Complex layers| Complex layers]]

Difference between revisions of "Micro and nanophotonics Instrumentation"

Latest revision as of 17:58, 17 December 2016

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