17 image-processing positions at CNRS in France

Postdoctoral position: ambient seismic noise, array processing, passive imaging, time-lapse inversion, seismic monitoring for natural hazard and hydrogeological applications (M/F)

scienceYears of Research Experience1 - 4 Additional Information Eligibility criteria - Processing and analysis of ambient noise seismic data; imaging and inversion techniques; mechanics and geophysics

Thesis (M/F) in multimodality spectro-imaging and machine learning methods for the bio-optical characterization of skin cancers

Information Additional comments Requested profile : - Graduated from MSc in biomedical engineering and/or signal/image processing and/or biophysics Expected technical and scientific skills: - Biological tissue

Doctorant en optique M/F

(OPALIS)", is currently under development within the "Multimodal Instrumentation and Tissue Imaging (IMIT)" team of the health physics department at IJCLab, in collaboration with the engineering department

M/F PhD: NIR-fueled fluorescent microbeads for velocity and O2 sensing

Description Bioreactor operation can be affected by local concentration gradients of dissolved oxygen and H3O+. O2 is often introduced by bubbling air or pure gas into the medium, and its dissolution depends

PhD (M/F): Foam-bonding process for granular wastes

background in physics or mechanics would be advantageous. A strong inclination towards experimentation is necessary, but an affinity for image processing (python, Fiji, matlab) would also be a plus. Foam

PhD candidate: Modelling plate tectonics: How do processes at different scales interact to create strain localization at the planet scale? (ERC RhEoVOLUTION) M/F

controls strain localization at different scales in the Earth. To do so, we will develop a framework for modeling self-consistently strain localization in rocks deforming by ductile processes

PhD student (M/F) - Solidification of plaster foams: rheology and structure

particular, liquid foams age due to a process called coarsening; foam solidification will arrest this process, but we do not know exactly when and how. The objective of the PhD project is thus to investigate

Quantum control of nanoscale flows: quantum Maxwell demons for nanoscale separations and energy harvesting (M/F)

prototype these quantum nanofluidic functionalities, in view of applying them to molecular separation processes and nanoscale energy harvesting. The theoretical work will be conducted in close contact with

Post Doctorate (M/F): coupling of quantum nanosources to dielectric metasurfaces

polarization will be evaluated by imaging the polarization-resolved Fourrier plane. These optical characterizations will be carried out at CEMES on state-of-the-art time-resolved confocal microscopes

Postdoctoral fellowship for the development of space-time and discontinuity-preserving acceleration-based Data-Driven Stress reconstruction method (M/F)

in a variety of dynamic processing techniques; including friction-stir welding or electro-magnetic forming or pulse welding. Such extreme types of deformation usually trigger localization mechanisms