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. The applicant should have a strong background in either ultrafast physics or quantum materials. Ideally with significant experience working at XFEL or synchrotron, or advanced ultrafast laser experiments
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, Electrical Engineering, Applied Physics, or related field Hands-on cleanroom experience (stepper, e-beam lithography, dry/wet etching, thin-film deposition, bonding, micro-transfer printing) Experience with
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leading scientists, all working at the technological edge of modern electron microscopy for advancing catalysis science. The four topics are: 1. Designing Superior Catalytic Sites You will explore
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. The applicant should have a strong background in either ultrafast physics or quantum materials. Ideally with significant experience working at XFEL or synchrotron, or advanced ultrafast laser experiments
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international leading scientists, all working at the technological edge of modern electron microscopy for advancing catalysis science. The four topics are: (1) Designing Superior Catalytic Sites You will explore
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neuronal cultures and brain tissue samples will be used. Targeted identification will be achieved by e.g. cryo- immunofluorescence (cryo-CLEM) and immunogold. Cryogenic focused ion beam milling methods will
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. The applicant should have a strong background in either ultrafast physics or quantum materials. Ideally with significant experience working at XFEL or synchrotron, or advanced ultrafast laser experiments
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neuronal cultures and brain tissue samples will be used. Targeted identification will be achieved by e.g. cryo- immunofluorescence (cryo-CLEM) and immunogold. Cryogenic focused ion beam milling methods will
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characterized by close daily interactions between the member of the center, both socially and scientifically. The successful candidate will take a leading role in advancing our activities in quantum photonic