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Field
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project entitled “Accelerated Development of Next Generation Li-Rich 3D Cathode Materials (3D-CAT).” 3D-CAT is a new Faraday Institution research project lead by Oxford Materials (Professors Robert House
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nuclear theory, low-energy nuclear physics, medium-energy nuclear physics, fundamental interactions, and accelerator technology, with additional smaller-scale programs in optical trapping of atoms, quantum
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technologies to accelerate life sciences research within the Center for Medical Biotechnology and across VIB. Collaborating with biology-focused teams, we uncover novel biology and open new avenues
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accelerometers to measure the non-gravitational accelerations acting on each satellite, which, in the data processing, will be separated from those caused by the gravity signal. NGGM will make it possible
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, data science, or a related field. We also think you have a strong mathematical background and knowledge of optimization, particularly in areas such as complexity theory, high-order methods, acceleration
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clusters, cloud computing, or GPU acceleration. Strong mathematical background in linear algebra, probability, and statistics. Prior research experience with publications or preprints. The University
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. The research focus will be on developing and applying first-principles-based and data-driven computational methods to understand multiscale processes and to accelerate chemical discoveries for renewable energy
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pride in being an inclusive community of outstanding learners, investigators, clinicians, and staff where interdisciplinary collaboration is embraced and great ideas accelerate translation of fundamental
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, linear accelerators, MRI scanners, PET, or other scientific/medical devices working with electrophysiology data working with a variety of experts in different fields (e.g., radiation oncologists
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to accelerate the design and discovery of novel materials. The Materials Theory Group has a background in using first principles methods to examine electronic and thermal transport, magnetic properties