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simulation techniques. In addition, simulations and examination of the overall separation process may require computational studies across multiple length scales. key words Modeling; Nanotube; Molecular
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RAP opportunity at National Institute of Standards and Technology NIST Magnetic Resonance in Industrial Applications Location Physical Measurement Laboratory, Applied Physics Division
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phases. This research will integrate a variety of modeling tools across multiple time and length scales to predict the microstructure evolution during the AM build process and post build thermal
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for accelerated science. This research opportunity focuses on developing, evaluating, and applying computational methods for materials characterization and/or simulation that combine the best aspects of physics
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-amplifiers, vector network analyzers, resonators is preferred. The preferred candidates will want to gain experience with circuit simulators and device modeling, leveraging fundamental physics to create new
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for testing the components of these devices is to make physical contact to the devices using micro probes. This approach has three main limitations: (1) each time the probes are landed on a device, they damage
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simulations allow the temperature dependence of the physical properties to be simulated, as well as the transition temperatures for ferroelectric and related structural phase transitions. The effects
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RAP opportunity at National Institute of Standards and Technology NIST Atom-based Solid-state Quantum Devices and Simulators Location Physical Measurement Laboratory, Quantum Measurement
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RAP opportunity at National Institute of Standards and Technology NIST Applied Mathematics of Soft, Fluid, and Active Matter Location Information Technology Laboratory, Applied and Computational
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-process densification. Complementary computational model simulation capabilities are also available. [1] J. Ilavsky, F. Zhang, R.N. Andrews, I. Kuzmenko, P.R. Jemian, L.E. Levine & A.J. Allen; J. Appl