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develop processes for the purification of hydrogen obtained from diol-based carrier molecules and to evaluate possibilities for the use of electrochemical compression processes. In this PostDoc position you
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-agent AI, cooperative vision, and compression protocols so fleets of intelligent machines can perceive the world—robustly, efficiently, and in a trustworthy manner—even when individual sensors fail
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models for compressible hypersonic flows; implementing new models and numerical schemes into larger, existing hypersonic CFD codebases; performing verification & validation studies for the new models
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include surfactants, polymers and biomolecules. The current project focusses on Soft Matter, in particular on the study of the flow properties of compressible colloids, microgels, combining scattering
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, compression and tensile testing. Experience in writing competitive proposals. Cell Culture: Human Mesenchymal Stem Cells. Programming skills (e.g., COMSOL, MATLAB, AutoCAD, etc.). Knowledge, Skills and
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sophisticated experimental campaigns to investigate the mechanical behavior of various materials under diverse loading conditions (e.g., tension, compression, shear, fatigue, impact, high temperature). Develop
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, encryption/decryption and compression; use of microelectronics devices (including COTS); implementation, inference, verification and validation of algorithms** on processing hardware platforms for space
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less authentic and personalized application PDF version of your full M.Sc. thesis (Please compress the figures if the file size is too large) At least one recommendation letter, preferably from your M.Sc
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. The IGNYTe project addresses the currently unresolved challenge of creating an efficient ultraviolet (UV) light source that can suppress spurious nonlinearities in direct drive fusion target compression. As
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collective negotiations agreements, this position requires a fully on-site work arrangement and may be eligible for a compressed workweek or a flex workday schedule. Flexible work arrangements are not