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prediction. In collaboration with NASA, NOAA, and the USGS, NIST develops technology to advance the calibration and characterization of ground- and space-based infrared, optical, and temperature sensors
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organisms that serve and evolve with their occupants and the world around them. NIST is seeking applicants in the area of building sciences, mechanical/electrical engineering and fields related to our
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spectrometry, and resonant x-ray scattering. key words critical materials; critical minerals; rare earth elements; membrane; sorbent; separation science; e-waste; measurement science Eligibility citizenship Open
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RAP opportunity at National Institute of Standards and Technology NIST Computational Investigations of Molecular Interface Formation from the Perspective of Cosolvent Preferential Interactions
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orientations in most engineering materials have some preferential distribution due to processing conditions and deformation history, referred to as crystallographic texture. This texture affects the initial
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RAP opportunity at National Institute of Standards and Technology NIST Computational Modeling of Fracture and Fatigue in Hydrogen Environments Location Material Measurement Laboratory, Applied
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RAP opportunity at National Institute of Standards and Technology NIST Developing new techniques for studying the underlying mechanisms of hydrogen embrittlement Location Material Measurement
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measure AI systems in application and real-world settings to accelerate trustworthy innovation, support the adoption of reliable AI, and protect national security. Our work has wide breadth and reach
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such that their mechanical motion can be cooled to the quantum ground state without the need for cryogenics. One device geometry of interest combines photonic crystal reflectors with a mechanical resonator that is
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of novel optical methods for nanoscale dimensional measurements using the NIST 193 nm Microscope: a newly upgraded, custom-built, world-class high-magnification optical imaging platform optimized