Our completed collaborative projects
-
XPulse - Innovative laser-generated X-ray medical imaging system
Developing a phase contrast mammography system based on x-ray source generated by laser and dedicated to the early detection of breast cancer.
Learn more
-
TALSO - New brazing process
Develop a new cold brazing process based on porous silver oxalate joint for the thermal functionalization of optical components.
Learn more -
Convergence - Optical components for power lasers
Design and realize optical components to enable the rise in energy and average power of diode-pumped solid lasers.
Learn more
-
AS TGV - Laser percussion drilling
To develop a new femtosecond-laser based technique for high throughput percussion drilling.
Learn more
-
ADDIMAFIL - Additive manufacturing by laser fusion
To develop a robotic unit for additive manufacturing by laser fusion of wire for large metallic parts.
Learn more
-
Atlantic-Ket-Med - Accompaniment of the biomedical sector
To establish a transnational advanced pilot manufacturing ecosystem for future biomedical products.
Learn more
-
PARACETAMOL - Picosecond laser source
To develop a protocol to remove tattoos by laser. In comparison with current tattoo removal techniques, this protocol will allow to remove colored tattoos with a reduction of pain and without side effects.
Learn more
-
MIRACLE - Supercontinuum medium infrared source
To develop a supercontinuum laser emitting wavelengths ranging from 2 microns to 5.3 microns with an average power greater than 4 W.
Learn more -
Compochoc - Non destructive testing
To create a new non destructive testing (NDT) technology that can lead to easy assembly qualification and control.
Learn more -
HELIAM - Metallurgical processing of parts
To develop and commercialize an innovative system allowing the metallurgical processing of parts intended for aeronautics by laser shock.
Learn more
-
GRADIOM - Gradiomètre de gravité à ondes de matière
To develop a new generation of highly efficient external enhancement-cavity doublers at 780 nm.
Learn more -
TresClean - Antibacterial surfaces
To develop of antibacterial surfaces by high power ultra-short laser texturing. The processes developed in the frame of the TresClean project will meet the industrial needs especially in terms of productivity with texturing speeds up to 40 mm/s.
Learn more
