-
are conducted throughout the manufacturing process of cell-based products and also serve as release criteria. Unfortunately, common measures of cell viability including dye-exclusion, often do not correlate
-
, spectroscopic analysis of the indented region enables the study at the crystallographic and molecular level of the kinetics and processes involved in the mechanical deformation of materials, e.g. strain build up
-
NIST only participates in the February and August reviews. Computer-based tools, including the NIST Alternatives for Resilient Communities model, or NIST ARC, are being developed to support
-
behavior (e.g., ignition, burning rate, fire growth). Such predictions require accurate and efficient simulation of the tightly coupled, time-dependent condensed- and gas-phase processes that control
-
even several million atoms on an ordinary computer. It links the different length scales smoothly and seamlessly.Such a model should be useful for many industrial applications of nanodiamnds
-
the improvement of measurement science to reduce uncertainties associated with the power rating. Furthermore, as photovoltaic cells and modules age in the field under operation, various degradation
-
of MBE growth systems for compound III-V semiconductors (arsenides and nitrides) and advanced nanofabrication and processing capabilities. We invite proposals aimed at both theoretical and experimental
-
computing. As the code has scaled up, we have also faced challenges in visualizing and analyzing large data sets. The visualization tool used with FDS is called Smokview . We are seeking a computer scientist
-
NIST only participates in the February and August reviews. Thermophysical properties are a key to efficiently and effectively designing the processes to produce and use the many fluids important in
-
to study both quasi-static and dynamic magnetization processes, with the intention to use these new techniques to correlate the magnetodynamic properties with the fundamental material microstructure (e.g