-
are often destructive, insufficient in resolution and sensitivity, and are subject to bias inherent in the measurement process. New methods for quantitative, in situ characterization are essential for gaining
-
; and (2) experiments devoted to studies of quantum-state engineering and entanglement with application to quantum-information processing, quantum simulation, spectroscopy, and tests of quantum mechanics
-
-acquisition circuitry, and signal-processing/pattern-recognition algorithms. The sensors must be tailored for the particular nature of a given chemical or biochemical measurement problem by optimizing and
-
been largely limited due to the inability to systematically control polymer sequence especially under real-world conditions where process history, crystallization, and degradation cannot be neglected
-
301.975.4579 Description As the demand for high resolution, high content imaging increases, the cost and challenges of acquiring, storing, processing, and analyzing today’s very large imaging data sets are even
-
formation, and dynamical surface processes occurring during vapor/gas phase chemical processes. Available resources include chemical vapor and atomic layer deposition systems with optical diagnostic tools
-
assessment; 2) method development to evaluate long term particulate and VOC emission during additive manufacturing process to support robust hazard assessment and development of safe methodology for the use
-
@nist.gov 301.975.6740 Description With the development of nanoparticle and colloidal technologies that include processing in the dispersed phase (or are fundamentally liquid phase processes), there is a need
-
on accurate understanding of physical processes that affect level populations and radiation transport in plasmas. In our research of very hot plasmas we perform precise calculations of basic atomic and
-
well as precipitation hardened aluminum alloys require accurate measurements of the amount of each phase in the material, as well as how the phase fractions evolve during processing and deformation. Similarly, the grain