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Field
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microscope that allows one to perform single-atom and single-site resolved fluorescence images of strontium Hubbard systems for the first time. Furthermore, we have very recently been able to push our setup
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fluorescence modulation. The aim of this position is to contribute to the development of new optical configurations enabling the spatial localization of single molecules with ultimate precision and reduced
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the advanced imaging techniques available, including confocal microscopy for tracking fluorescent MPs and developmental analyses, as well as Scanning Electron Microscopy (SEM) available at the MNHN site. He/she
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generally based on fluorophores with different emission wavelengths. However, it is also possible to use the emission lifetime to create a contrast. For example, FLIM (Fluorescence-lifetime imaging microscopy
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Dumenil, where intravital imaging approaches will be performed. - Conduct independent research on the chosen topic - Design, perform, and interpret experiments - Present results to the scientific community
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, microbial ecology, imaging of biological samples, or other related fields. Candidates should have experience with one or several of the following techniques: fluorescence in situ hybridization (FISH, CARD
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measurements, identification and quantification of microstructural defects by optical confocal microscopy, fluorescence imaging, etc.). The elaboration processes that will be used are based on the formulation
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field. Experience in the following is essential: single-cell fluorescence microscopy, microfluidics, image analysis, and machine learning (as applied to biological imaging). Python and MATLAB programming
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possess a doctorate in Biophysics, Biochemistry, Molecular Biology or related field. Experience in cell imaging, bacterial and molecular biology, fluorescence labelling, and protein-DNA/RNA interactions is
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molecular biology, fluorescence labelling, and protein-DNA/RNA interactions is essential. Experience in controlling and operating single-molecule/super-resolution microscopes for bacterial imaging, single