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and application of nonlinear x-ray spectroscopies. The successful candidate will work closely with experimental collaborators conducting measurements at large-scale x-ray user facilities, including
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of these systems are insufficient to cover the diversity of human-driven experimental activities. The development of multi-appendage, dexterous robots with embodied intelligence is a key to closing this gap
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materials recovery,CO2 electrolysis and fuel cells. Experimental work will involve design, characterization, and degradation studies of model interfaces that can help elucidate their degradation mechanisms
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synchrotron or X-ray free-electron laser (XFEL) facilities. • Hands-on experience with ultrafast pump-probe or in-situ experimental techniques employing laser, magnetic, or electrical fields. • Proficiency in
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crystal analyzer spectrometers, asymmetric reflections, and/or high-resolution hard X-ray spectroscopy. Prior synchrotron beamtime experience (APS/NSLS-II/SLAC/ESRF, etc.), including experimental planning
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utility, field, or experimentally derived datasets relevant to grid operations, control, or cybersecurity. Experience contributing to collaborative research software, reproducible workflows, or open-source
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regulations and contract. Skill in modeling, processing, and analyzing computational results to inform accompanying experimental efforts. Skill in the use of modern collaborative coding practices Demonstrated
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and novel device technologies Develop, validate, and maintain simulation and modeling frameworks for detector performance, characterization, and benchmarking Analyze simulation results and experimental
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researcher will have the opportunity for extensive collaborations across the computing divisions as well as with industrial and university collaborations and various experimental and computational groups in
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Postdoctoral Appointee - Investigation of Electrocatalytic Interfaces with Advanced X-ray Microscopy
part of the DOE–BES initiative Integrated Scientific Agentic AI for Catalysis (ISAAC) , a multi-facility collaboration integrating experimental modalities and simulations to enable an orchestrating