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the world of tomorrow. XLIM UMR CNRS 7252 is a center of expertise focused on electronics and high-frequency technologies, optics and photonics, mathematics, computer science and imaging, and CAD, in
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/embed, cryosection and immunohistochemical staining of relevant ocular specimens and tissues; imagining and subsequent analysis of stained tissues; image capturing with microscope including live imagining
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in nonlinear X-ray-matter interactions and ultrafast diffraction/imaging are targeted with this position as Postdoc in the MID group. For our MID group, we are looking for a Postdoctoral researcher for
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description. This PhD project aims to develop computational and image-analysis approaches for quantitative characterization of cytoskeletal organization, polarity, and flow dynamics in single metastasizing
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fields: Material Science, thermal simulation, Metallurgy, Solidification of alloys,... School - Location: Centrale Lille Institute Laboratory: LaMcube Web site: http://lamcube.univ-lille.fr/ Name of
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, with potential for extension. About you You will hold a PhD in a relevant discipline such as biochemical engineering, optical physics, protein biophysics, analytical chemistry or related field. You will
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the optical tweezers Use and further develop simulation tools to design and benchmark control strategies before deploying them on the microscope Integrate your software with the microfluidic live-cell imaging
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The Hamburg Centre for Ultrafast Imaging (CUI), Cluster of Excellence | Hamburg, Hamburg | Germany | 2 months ago
in either ultrafast physics, optical tweezer technology, or in charged particle analysis, particularly in combination with velocity-map-imaging spectrometers or ion microscopes. Experience in
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the excellence cluster Your profile PhD in physics or in a related discipline experience in phase contrast or coherent X-ray imaging advanced programming skills in a high-level computer language (Python or related
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systems were developed, innovative solution in diffractive optics and metamaterials for flat THz optics were suggested. Applications of THz structured light for imaging were studied establishing design