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on nuclear arms control, disarmament, nonproliferation, verification, and on the global security challenges associated with emerging technologies such as artificial intelligence, quantum technologies, and
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-generation nuclear science experiments at Jefferson Lab and the Electron-Ion Collider (EIC). As part of our growing multidisciplinary team, you will contribute to the development of superconducting nanowire
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the straw tracker. The Research Associate will then play a leading role in analyzing the data collected. The successful candidate will: Have a Ph.D. in particle physics, nuclear physics, or another
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This position focuses on the research and development of novel radiation detectors and associated edge-computing circuits and algorithms for X-ray, particle, and nuclear physics experiments
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UNSW Nuclear Innovation Centre. This appointment is one of up to six new postdoctoral positions in this research area for 2025. This position is best suited for candidates who have experience working
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models for high-temperature structural materials with applications in nuclear reactors and other energy systems. The candidate will collaborate with ANL staff to review, validate, and enhance methods
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, astronomy, atomic physics, quantum optics, condensed matter physics, high energy physics, nuclear physics, and related areas. We offer our students a variety of graduate and undergraduate degree options
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capabilities for advanced nuclear materials systems. In addition, this work includes developing processes that connect mechanical and thermophysical testing data with the microstructures of ceramic and metallic
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technologies. Synthesis will be carried out mainly using mechanochemical methods, while characterization will involve a combination of electrochemical impedance spectroscopy (EIS), solid-state nuclear magnetic
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modeling of x-ray spectroscopies sensitive to molecular chirality; simulations of x-ray–induced ultrafast electron-transfer, decay, and nuclear dynamics in gas- and liquid-phase systems; and the development