40 postdoctoral-soil-structure-interaction-fem-dynamics Postdoctoral research jobs at Aarhus University in Denmark
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The Department of Comparative Literature and Rhetoric within the School of Communication and Culture at Aarhus University invites applications for a postdoctoral position affiliated with TEXT
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to work independently with an outreaching and problem-solving mindset. As a person, you are structured, have good interpersonal skills, you function well within a dynamic group environment, you are friendly
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. The overall goal of the project is to design a novel high temperature heat pump. You will be conducting Computational Fluid Dynamic (CFD) simulations and cycle analysis, which will be instrumental
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working with zebrafish to understand how the enteric nervous system, immune system, brain, and microbiome interact. Expected start date and duration of employment This is a 2–year position from 1 January
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We are seeking highly motivated applicants for a 1-year postdoctoral position (with the possibility of 1-year extension) in the area of Goal-Oriented Semantic Communication and Edge Intelligence
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and 7 months to work on mitochondrial membrane protein complexes using structural biology methods, cryo-ET and STA. Expected start date and duration of employment The starting date is 1st February 2026
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we play, teach, use and listen to music. About the research project The project looks into interpersonal coordination investigating how groups' coordination dynamics are influ-enced by social identity
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modelling of diffuse scattering using X-rays, electrons and neutrons to establish local structure and correlated disorder in advanced materials and including ultrafast femtosecond science. The project
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electrochemical characterization Experience with either electrolysers or flow batteries Experience/engineering skills with construction of experimental setups Good skills in communication of research results
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response to treatment, may be explained by variations in the interactions between cancer cells and different immune cells within the tumor microenvironment. The aim of the present project is to delineate