Sort by
Refine Your Search
-
existing projects in the Energy and Environment Division. References Persily A” "Challenges in developing ventilation and indoor air quality standards: The story of ASHRAE Standard 62." Building and
-
approval, we seek to develop methods to measure local stress states in benchmark constriction-flow geometries that lead to blood damage. For example, we seek improvements in flow-field imaging, flow
-
the integration of thermodynamic and transport properties and phase equilibria in new ways (e.g., by relating mixture viscosities to azeotropy and liquid-liquid equilibria). The goal is to develop modeling
-
of neutron beams, and its exploitation in neutron-based quantum information processing. Experimental and theoretical proposals are solicited which develop improved techniques for atom or neutron interferometry
-
. The bioanalytical science group is directed toward developing a suite of fundamental measurement science, technology, standards, and reference data to enable more accurate and confident characterization of key
-
internal and external to NIST -- to develop new measurement tools and improve quality of existing measurements. Recent work has focused on (i) design and operation of microfluidic devices for cytometry and
-
on fundamental constants in the development of quantum electrical standards. The FEM group uses physical laws, quantum invariants, and ultra-precision measurement techniques to create and refine a core set of
-
cycling, and absorbed interfacial moisture. This project aims to develop in-situ mechanical tests, coupled with mechano-responsive fluorophores, moisture sensitive fluorophores, and advanced imaging
-
system. However, not much is known about how these chemical modifications affect structure-function relationships. We propose to develop robust computational modeling in conjunction with experimental NMR
-
within the Radioactivity Group at NIST addresses some of these hurdles in an effort to provide the foundations for absolute quantitation in imaging. NIST pioneered the development of long-lived calibration