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Projects/Programs

Topic Area
Displaying 651 - 675 of 1638
Transmission Electron Micrograph

Hybrid Quantum Optomechanical Systems with Solid-State Artificial Atoms

Ongoing
Quantum Dot – Surface Acoustic Wave Microwave-to-Optical Transducers In this project, we focus on coupling nanoscale acoustic resonators with InAs quantum dot (QD) single photon sources (Fig. 1). At ultra-low temperatures, such as those in a dilution refrigerator, the acoustic resonators act as

Hydration Reactions in Microstructures Project

Completed
Objective - Generate and publish reaction rate data and enhanced computer modeling tools to better understand and predict the rates of microstructure development and phase interactions in portland cement concrete binders. What is the new technical idea? Reflection digital holographic microscopy (DHM
HIP engines

Hyperspectral Image Projector (HIP)

Ongoing
Remote sensing instruments and medical imagers are designed to take images composed of many spectral bands, not just the minimum three components used by common digital cameras (i.e., red, green, and blue). These images are referred to as hyperspectral because each pixel contains information for
hyperspectral imaging images

Hyperspectral Imaging Standards

Ongoing
There has been a surge in interest in hyperspectral imaging for the use in environmental monitoring, medical imaging, and manufacturing, as several examples. Standards provide common reference points that foster an understanding between different entities. The range of standards encompass all
hyperspectral imager

Hyperspectral Microscopy

Ongoing
NIST has developed a laboratory dedicated to measuring the optical properties of materials through the use of commercial and custom hyperspectral imagers. The custom built hyperspectral imaging microscope covers the 400 nm to 2500 nm spectral range using narrow contiguous spectral bands. This system

Identity Credential Interoperability

Completed
As the ISO/IEC 24727 technical standard for smart cards nears completion, enabling USG identity credentials to take advantage of the standard is desirable but our federal constituency requires a better understanding of the standard itself. In order to do this, an implementation and operational
The different authentication factors pscr

Identity Management

Ongoing
A dedicated nationwide public safety broadband network based on Long Term Evolution (LTE) technology will have unique cybersecurity capabilities and features due to public safety’s operational environment and requirements. One significant public safety requirement is the ability to know the identity

Identity Management Systems Research & Development

Completed
This project's activities will significantly advance the identity management community's understanding of fundamental issues, and the ability to effectively implement and use identity management systems.

IDMS Standards Activities

Ongoing
This work focuses on U.S. participation on related IDM standards activities, development of standards and metrics, and related outreach. The work program for this project includes: 1. U.S. representation on the following ISO/IEC JTC 1 subcommittees: a. ISO/IEC JTC 1 SC17 b. ISO/IEC JTC 1 SC 27 c

Illicit Narcotics Detection

Ongoing
“Method for evaluating ion mobility spectrometers for trace detection of fentanyl and fentanyl-related substances”, Jennifer R Verkouteren, Jeffrey Lawrence, R Michael Verkouteren and Edward Sisco, Analytical Methods, 11(47), 6043-6052 (2019). “Discriminative potential of ion mobility spectrometry
topLevel

Image Analytics

Ongoing
The Image Analytics Project enables scientific discovery by: Understanding scientific imagery, including traditional imagery forms and sizes advanced imagery forms and sizes (including very large images) Characterizing and evaluating sensors and processors of scientific imagery, including
NIF

Imaging: Advanced Neutron Imaging Facility

Ongoing
Available as a national user facility since 2006, the NIST Neutron Imaging Facility provides users with a unique “plug and play” approach to imaging operating fuel cells and electrolyzers. In 2016, the NIST-NeXT system was first installed, allowing simultaneous neutron/X-ray tomography of complex
measurement results

Imaging: Characterization of Porous Transport Media for Hydrogen Fuel Cells

Completed
Accurate, in situ characterization of the physical properties of a porous transport layer (PTL) – porosity distribution, liquid saturation as a function of pressure, liquid and gas permeability, thermal conductivity – is critical to improving the understanding, and hence manipulation, of the water
LiNMC battery

Imaging: CREB

Ongoing
The NIST Neutron Imaging Facility (NNIF) has developed an in situ simultaneous Neutron and X-ray Tomography (NeXT) capability that allows for 3D imaging of batteries and other objects [1-3]. Neutrons are complementary to X-rays and when combined allow one to segment and identify features to non
timeline of neutron detector image spatial resolution

Imaging: Evolution of Neutron Image Detector Spatial Resolution

Completed
Neutron imaging has yielded valuable insight into the water content of fuel cells because minimal changes to a test section are needed. A limit of neutron imaging is the achievable spatial resolution, which is primarily dominated by the detector. Figure 1 shows the evolution of the spatial
Bragg-Edge Imaging

Imaging: Improving Lead Battery Efficiency with Neutron Imaging

Completed
Scientists will be joining forces with NIST from INMA (Instituto de Nanociencia y Materiales de Aragón) and Exide Technologies, a global battery company through one of its R&D centers based near Madrid. They will study the fundamental processes that govern recharge efficiency and battery electrode
automotive fuel cell test section

Imaging: M2FCT - The Million-Mile Fuel Cell Truck Consortium

Ongoing
True in operando imaging of PEMFCs to observe and quantify water transport phenomena is only possible with neutrons. NIST, in partnership with General Motors and support of the EERE has developed a world-class facility for in operando neutron imaging of fuel cells for light duty vehicles. Upgrades
Neutron Imaging of Lithium and Alkaline Batteries

Imaging: Neutron Imaging of Lithium and Alkaline Batteries

Completed
This is due to the high sensitivity of neutrons to hydrogen, while having relatively small sensitivity to many common materials of construction such as aluminum and carbon. Neutron imaging can play a similar role in advanced battery development by providing in situ measurements of hydrogen or

Imaging: Neutron Tomography of Hydrogen Storage Bed

Completed
While many techniques exist to measure the volume average of the hydrogen uptake, to date no method exists that can measure the full three-dimensional hydrogen distribution within the storage vessel. In order to address this shortcoming, a prototype hydrogen storage bed has been studied using
die-cast toy

Imaging: The Neutron and X-ray Tomography (NeXT) System

Ongoing
Neutrons and X-rays are complementary, nondestructive, penetrating probes of matter. X-rays interact with the electron cloud of atoms and therefore sees increasing attenuation with atomic number while neutrons interact with the nuclei resulting in a very scattered pattern with atomic number. The
prototype optic

Imaging: Toward a Neutron Microscope

Ongoing
The NIST Neutron Microscope The NIST neutron microscope based Wolter optics represents a complete change in the way neutron imaging will be conducted, as the time and spatial resolution achievable with this instrument will approach that early generation X-ray synchrotron beamlines. A collaboration