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GRADUATE STUDIES
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MSc in Optics, Image, Vision, Multimedia (OIVM)
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SLEIGHT's research projects
Each project is selected by the Graduate School trough Calls for projects or thesis certification, and in line with at least one of the 3 scientific axes of Manutech-SLEIGHT.
The funded projects are at the interaction between:
- Physics – Biology
- Optics - Materials
- Biology – Artificial Intelligence
- Surface Engineering - Artificial Intelligence
Axis 1
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Dense structures on the nanoscale
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Femto-second Laser irradiation of Metals
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Influence of ultrafast laser texturing on hydogen uptake and diffusion in metallic materials
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Surface Morphology at the nanometric scale by temporal and polarization control of ultrashort laser pulses.
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Ultrafast electron-molecular dynamics coupling in photoexcited silica glass
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Study of the biological behaviour of PVD thin film metallic glasses: effect of an ultrashort laser treatment
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In situ radioscopy of the melt pool morphology for selective beam melting
Axis 2
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Quantitative analysis of biomarkers by spectrometry
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Predicting the Reflectance and Transmittance of Translucent Dental Resins
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Diffusion Of Nanoparticles On Surfaces
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MAchine Learning for high definition BOne digital Twin
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Intravascular manometry by vector Doppler ultrasound
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Physics-Guided Machine Learning
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oPtImal cOntrol magNetic resonance Elastography : application to livEr with hemochRomatosis
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Quantitative identification of physical characteristics of solid interfaces correlated with the tribological properties
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Explainable deep models in cell imaging: application to the analysis of structural changes in human cells for diagnostic purposes
Axis 3
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Thin passive films characterization by surface plasmon resonance
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Eye Anterior segment Laser Engineering
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Additive manufacturing by stereolithography of tough ceramics for medical application
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Femtoseconde LASer for dental IMPlants multifonctionnal texturing
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SPR-based sensors for monitoring in vitro bone models
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Magnetic field steering Of the Thermo-chromic behavior Of Micro-structured surfaces
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Periodic Van Der Waals Origamis by Ultrafast Laser Nanotexturing