-
our understanding of the fundamental limitations of detectors and sources; development of new ways to package detectors, sources, and components optimized for few photon operation; and developing new
-
been in development over the past 15+ years and their capabilities have grown significantly. An important effort within the LPBF community is the use of high-fidelity multiphysics models to predict melt
-
, E.A. Lass, J.C. Heigel, Y. Idell, M.E. Williams, A.J. Allen, J.E. Guyer, L.E. Levine, Acta Mater., 139 (2017) 244-253. Additive manufacturing; Metals; Phase transformations; CALPHAD; DFT; Computational
-
NIST only participates in the February and August reviews. Frequency combs are a powerful sensing tool capable of measuring broadband spectra with high resolution and high precision. The diffraction
-
identifying not only the drug(s) but also the cutting agents, diluents, and adulterants. They must also be user-friendly, and deployable in a mobile environment where laboratory resources (high voltage, gases
-
, or techniques that will speed up analysis times, provide increased information to the chemist, and/or simplify data interpretation while enhancing data quality. One of the goals of the forensic program at NIST is
-
fires and provide motivation for the application of similar technologies. We are interested in developing improved measurement methods of flow, temperature, heat transfer, gas species, and particulate
-
and collectively-as well as some of the important application parameters (i.e., T1 and T2 times in imaging and heat output in hyperthermia) have lagged behind. This research area investigates
-
the potential toxicity of compounds to humans and ecological receptors. To establish the extent of the biological relevance of these assays in predicting the effects in physiological systems, a high-level of
-
will integrate high-frequency electronic devices with ultrasound acoustic devices and microfluidics. Our approach leverages advanced on-wafer calibration and measurement techniques to accurately define