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comprehensive numerical model for tire-snow interaction: coupled numerical models for rubber-snow interaction will be implemented using the Abaqus software. The main objective is to select the most suitable
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interactions is therefore needed. Understanding how introduced microorganisms interact with resident communities — whether through competition, cooperation, or niche differentiation — is key to designing robust
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. The position combines microbial ecology, metabolomics, data integration, and bioinformatics, and offers close collaboration with experimental researchers working on microbe-microbe and plant–microbe interactions
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encouraged to visit the ESA website: http://www.esa.int Field(s) of activity/research for the traineeship As part of the Wave Interaction and Propagation Section, you will contribute to consolidating
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/ plasma research are preferred. Knowledge of computational fluid dynamics is a plus. Strong organisational and communication skills are expected in order to facilitate interaction with several external
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studies fundamental and applied aspects of multiphase flows, combining advanced experiments and state-of-the-art numerical simulations. Research focuses on dense dispersions, turbulence interacting with
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consist of multiple interacting components whose therapeutic behaviour changes after administration due to biological interactions (protein corona formation, degradation, payload release). Current AI
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project and interacting with the different partners and stakeholders in the project contributing to some teaching activities and possibly supervising Bachelor and Master students (20% of the time) Where
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clinical cohorts. By investigating hemodynamics, organ perfusion, and device–heart interactions, you contribute directly to improving bedside decision-making. You translate experimental findings
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amongst neighborhoods through interventions. Where to apply Website https://www.academictransfer.com/en/jobs/359161/phd-researcher-smart-active-mob… Requirements Specific Requirements A background in either