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The X-ray Science Division of the Advanced Photon Source (APS) at Argonne National Laboratory is seeking a highly motivated postdoctoral candidate to study the structure-function relationship of
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quantum mechanical calculations (e.g., first principles density functional theory (DFT)) to identify the structures and to understand the complex mechanisms of molecular reactions occurring at the surface
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The Microscopy group in X-ray Science Division of Advanced Photon Source at Argonne National Laboratory is seeking a postdoctoral researcher to work on cutting-edge ptychography technique
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the area of developing large-scale foundation models for advancing science. In this role, you will work on the AuroraGPT project, an ambitious new initiative at Argonne that aims to revolutionize scientific
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of the above areas will be considered. One of our open positions is to work with Andrew Hearin on forward modeling galaxy SEDs and the galaxy--halo connection with applications to DESI, LSST, and CMB cross
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mechanisms. The candidate is also expected to think and work independently and perform in a highly interdisciplinary environment of chemists, physicists, and materials scientists. Understand relations
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experiments may require in-situ electrical transport measurements, and the additional use of PPMS and MPMS. The successful candidate will be responsible for fabrication of suitable samples using focused ion
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postdoctoral appointee will use a combination of synchrotron X-ray surface scattering and imaging approaches. The work also involves the interpretation of experimental data and the presentation of results
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innovative project aimed at enhancing global and domestic supply chain resilience through the development of advanced supply chain analytical tools. The role will require ability to understand and integrate
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. Successful candidates will work closely with other team members to gather requirements, design and implement software for complex modeling, simulation, and data analysis, and deliver detailed documentation