415 assistant-professor-computer-science-data-"https:"-"https:"-"https:"-"UCL" positions at NIST
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computational materials science to couple with a substantial effort to develop a comprehensive database of thermophysical and transport properties of alloys and composites. Programmatic interests focus
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, and near-field electromagnetic sensing techniques to probe electric and magnetic fields locally. These measurements are combined to help validate Multiphysics electro-thermo-mechanical models, assess
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will be complemented by computer model simulations using available capabilities based on methods such as density functional theory (DFT). [3] [1] J. Ilavsky, F. Zhang, R.N. Andrews, I. Kuzmenko, P.R
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RAP opportunity at National Institute of Standards and Technology NIST Laser-Matter Interactions in Extreme Ultraviolet Atom Probe Tomography Location Physical Measurement Laboratory, Applied
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RAP opportunity at National Institute of Standards and Technology NIST Enabling Advanced Functionalities in Photonics using Low-Dimensional Semiconductors Location Material Measurement
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the world. With this production system, we are looking to augment our ability to rapidly answer science questions using the aggregated data volume. Additionally, we seek to develop and deploy new autonomous
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We develop and utilize state-of-the-art experimental and computational techniques to acquire, evaluate, and correlate thermodynamic data of standard reference quality with a particular emphasis on
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attracted considerable attention for potential application in nanoscale devices, including beyond-CMOS electronics, quantum computers, chemical sensors, photodetectors, etc. Prospective advantages over
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-based and data-driven prediction models are often impractical for operational use due to unrealistic assumptions, limited data availability, and prohibitive computational costs. To address
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characterization, microstructural analysis, modeling, and/or data science to reach out and apply, as a variety of perspectives will be invaluable in advancing our understanding of material behavior and design. We