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Université Grenoble Alpes, laboratoire TIMC, équipe GMCAO | Grenoble, Rhone Alpes | France | 12 days ago
Post-doctoral Position In Medical Image Processing The Computer-Assisted Medical Interventions (CAMI) team at the TIMC laboratory (Grenoble, France) is seeking a highly motivated postdoctoral researcher
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taxonomically (https://ecotaxa.obs-vlfr.fr/ ) or store and distribute data on the abundance of marine snow particles. The team has a long experience of interactions with engineers and computer scientists, in
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, time response, noise, cryogenic measurements) *punctual measurements on synchrotron might also be involved *Reporting of the results This project is part of the ERC AQDtive and ANR camIR (funded for 3
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various disciplines: computer scientists, mathematicians, biologists, chemists, engineers, physicists and clinicians from more than 50 countries currently work at the LCSB. We excel because we are truly
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graph. Skills Technical skills: knowledge graphs, semantics web, Linked Data, LLMs, ChatBot Programming: Python, RDF, SPARQL. Relational skills: Ability to work in an interdisciplinary and international
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International publications in peer-reviewed journals and / or book publications Demonstrated teaching experience Demonstrated project management skills Ability and willingness to work both independently and as
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tailored solutions to industry, research centers, and universities, addressing critical challenges in energy, microelectronics, life sciences, and industrial processes. Within the SIPT Unit, you will be part
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of the team and colleagues in partner institutions. Funding is available for 1 year, with possibility of extension for longer periods. Applications Interested candidates should email Laurence Boutout
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coordinated mechanisms, which include DNA Damage Response (DDR), the control of cellular proliferation or apoptosis induction. IR exposure might lead to genomic instability, chromosomal aberrations and cancer
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Dopant and Defect Physics for Device Optimization for Hafnium Oxide based Devices Devices realized with ferroelectric hafnium oxide are silicon compatible, power-efficient, and can be cost