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project based on a living model. Consequently, working hours will be adapted to the biological requirements and developmental stages of the model organism. The scientific environment at the Institute
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of transportation and energy. Its experimental and numerical modeling activities focus on various complex and multiphysical flows, including turbulence, two-phase flows, combustion, and thermoacoustics. Research
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of components at cryogenic temperature and the use of simplified transistor models such as s-EKV or ACM. Project description: Industrially fabricated devices based on the fully-depleted silicon-on-insulator (FD
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role in models of pulmonary disease. The research is embedded in a Franco–Brazilian collaboration at the interface of immunology and structural biology, providing exposure to complementary expertise and
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of electrical energy systems. Its activities can be summarised by the following keywords: electrical energy, materials, innovative processes and systems, modelling and design. With over a hundred permanent staff
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and model their variation and evolution, so that an expert can more easily analyze them. The key concept it will develop is the one of visual structures. Their key features will be
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-world error patterns: we therefore aim to go beyond the traditional depolarizing error model generally accepted in the quantum coding community. One therefore wishes to adapt existing decoding algorithms
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complementary expertise, using both space and ground-based observations of the solar atmosphere, in-situ measurements from heliospheric probes, in synergy with a complete numerical modeling of the generation and
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macroscopic designs for soft-tissue healing. The project will be conducted using in vitro models of bacterial adhesion and fibroblast proliferation in collaboration with University of Gothenburg and in vitro
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" team is located within UMR 5242, at the Institute of Functional Genomics of Lyon (IGFL). It is a multidisciplinary institute, offering interesting exposure to several system models around common themes