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Development: Design and maintain open numerical simulation codes to model these systems. - Scientific Collaboration: Collaborate with team members on this project and related research initiatives
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). Your main task will be to design, develop and conduct analyses of neural population dynamics in a human intracerebral dataset, working closely with the clinical teams at CHUGA and the national and
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devices are designed to operate at specific near-infrared wavelengths while remaining minimally perturbative across the rest of the optical spectrum. A key scientific challenge of the project is to achieve
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matter exist in theories beyond the SM, and the WIMP (Weakly Interacting Massive Particle) is one of the best motivated of these candidates, as it allows to also solve the SM hierarchy problem, directly
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to multiple Bruker mass spectrometry platforms and regular interaction with Bruker proteomics experts and R&D teams. You will therefore gain experience at the interface of academia and industry-driven
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materials and devices. The postdoctoral researcher will work in a stimulating scientific environment that promotes interaction, collaboration, and innovation, and will benefit from the collective expertise
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plasma-assisted chemical vapor deposition (MPACVD); - Optimize the synthesis on the different types of substrates used; - Develop substrate preparation protocols designed to promote the adhesion of diamond
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industrial partners. - Construction of electrochemical cells incorporating specially designed magnetic field sources, including quantitative measurement of local magnetic fields. - Implementation of tools
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combine density functional theory (DFT), molecular simulations, and machine-learning force field (ML-FF) development to uncover the factors controlling NHC–surface interactions and to model realistic
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dilution while minimizing by-products. He or she will need to implement various techniques to best characterize the grafted functions. In particular, they will interact with the MolQIf consortium teams