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discipline • A strong experimental background in transmission electron microscopy • Experience with focused ion beam preparation of electron microscopy specimens • Experience with analysis of complex images
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., optical coherence tomography and X-ray imaging). The project will include exploring new membrane materials, exploring degradation mitigation strategies, and guiding next-generation membrane design for
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(e.g., coherent diffraction imaging, X-ray reflectivity) or the use of scanning probe and/or optical microscopy Considerable knowledge of interfacial chemistry or materials science; experimental
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, especially XAS and other X-ray spectroscopy techniques, nuclear magnetic resonance spectroscopy, infrared and ultraviolet spectroscopy, as well as experience with high resolution STEM imaging Excellent written
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resonance spectroscopy, infrared and ultraviolet spectroscopy, as well as experience with high resolution STEM imaging Excellent written and oral communication skills Requirements: Recent or soon-to-be
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qubit-based quantum processors and connect them via a campus-scale fiber-optic network. The postdocs will design and fabricate superconducting transmon qubits and microwave-optical quantum transducers and
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data analysis/spectral image processing. Use of data analytics or machine learning to guide process design and optimization. Job Family Postdoctoral Job Profile Postdoctoral Appointee Worker Type Long
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platforms, with collaborations with the Argonne Leadership Computing Facility and the Advanced Photon Source. This postdoc will contribute to the design and implementation of a software infrastructure for the
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measurements. Postdocs have an initial term of 1 year and can be renewed in 1 year increments; up to a total of 3 years depending on funding and performance. The expected starting date is Q3/Q4 of 2025
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exploration of time-resolved imaging of material behavior using advanced ultrafast electron microscopy techniques. The in-situ experiments will be driven by external electric fields and relevant optical stimuli