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research You will join a research team that comprises a large group of colleagues (PhD students, postdoctoral researchers, associate professors and professors) sharing your primary research interest
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hardware accelerators, or quantum information science. Responsibilities and Qualifications Your primary responsibilities will be centered around the fabrication and characterization of TFLN/TFLT PICs
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Postdoc in assessing carbon sequestration potential of different wetlands as nature-based solutio...
international research applications. Experience in planning and conducting field-work, laboratory work and demonstrated ability to take initiatives Who we are At the Department of Agroecology, our main goal is to
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include: A letter of motivation (max. 1 page) A detailed CV Master and PhD degree certificates A complete and numbered list of publications Three scientific publications considered to be most important for
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(max. 1 page) A detailed CV Master and PhD degree certificates A complete and numbered list of publications Three scientific publications considered to be most important for the advertised position
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. Responsibilities and qualifications Your primary focus will be to develop a comprehensive database and conduct novel research on how university innovation ecosystems influence the performance and scaling of deep
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primary T cells, and characterize their phenotype using flow cytometry. Engineering human cell lines: Developing and validating HLA-typed keratinocytes and T-cell lines expressing disease-specific T-cell
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. Place of work Aarhus University, Fuglesangs Allé 4, 8210 Aarhus V. Please note that during 2025 the campus will move to new locations in the University City at the Aarhus University main campus.
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materials, producing a comprehensive dataset of structures and their optical properties. This dataset will serve as input for AI-based design tools developed by collaborators within the project. Your main
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the project. Your main tasks will be: Develop and apply electromagnetic modelling techniques in combination with inverse design to study light-matter interactions in dielectric nanostructured optical surfaces