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5th May 2026 Languages English Norsk Bokmål English English Faculty of Engineering Science and Technology PhD Fellow in optics: advanced microscopy methods for bioimaging Apply for this job See
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on-going projects. Relevant techniques include transgenic mouse work, mouse training and strength testing, mouse colony management, tissue harvests, confocal microscopy, antibody-based techniques, small
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plague outbreaks in Eurasia between 1300 and 1900 CE. A short description of the project can be found here: https://www.synergy-plague.org/research/introduction/. The project is funded through the European
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the candidate will apply both wet lab molecular biology, genome editing, trait phenotyping, imaging/microscopy, and computational methods to meet this aim. The project aims to advance the mechanistic
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materials under applied electric fields Magnetic and magnetoelectric measurements at cryogenic temperatures Structural and microstructural characterization using diffraction and microscopy techniques Use
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in the Phi_Lab, led by Dr. Azeem Ahmad, and will focus on the development of advanced reconstruction algorithms and next-generation quantitative optical microscopy and tomography systems for imaging
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of mammalian gametes or embryos Extensive experience with in vitro fertilization experiments Molecular biology techniques (RNA isolation from limited cells, RT-qPCR) Fluorescence microscopy or confocal laser
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an advantage. This includes experience with cardiac cell work (including cardiac/valve cell isolation), qPCR, histology, antibody-based techniques, confocal microscopy, small molecules/nanoparticles-based
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characterization using diffraction and microscopy techniques Use of advanced research infrastructure, including synchrotron and neutron facilities or high-magnetic field laboratories The PhD project includes
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. Additionally, X-ray microscopy will be employed to address taxonomic and systematic questions, analyzing specimens from both new and historical collections housed at the Arctic University Museum of Norway