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Projects/Programs

Topic Area
Displaying 426 - 450 of 1639
EUV graphs

Dynamic EUV Imaging and Spectroscopy for Microelectronics

Ongoing
Collaborations with industry leaders have led us to develop new measurement techniques to improve our understanding thermal transport, spin transport, and nanoscopic (and interfacial) material properties in active device structures. Such capability requires the ability to measure these properties at
Dynamic EUV Metrology of Nanoscopic Thermal Transport in Active Devices

Dynamic EUV Metrology of Nanoscopic Thermal Transport in Active Devices

Ongoing
Heat is greatly impeding progress in microelectronics, which is only getting worse as dimensions are reduced and device architectures move more towards being 3-dimensional. The dynamics and physics of nanoscale thermal transport are unknown and dynamic measurements of active devices at this scale do
Anechoic-Chamber-400 X 324

Dynamic Mechanical Metrology: Acceleration, Force, and Acoustics

Ongoing
The Dynamic Mechanical Metrology Project develops standards and provides calibrations for SI-traceable acceleration, acoustical and dynamic force metrology. We develop improved reference standards and calibration techniques, sensor-embedded standards, calibration techniques for new technologies, and
Optofluidic device

Dynamic Nanoflow Metrology

Ongoing
Ultra-precise and dynamic flow measurements are needed for high-throughput biological studies and for dynamic control of chemical delivery systems in medical and biotechnology applications. In addition, existing analytical methods, such as analytical high-performance liquid chromatography (HPLC) and

Dynamic Plasticity: Non-Equilibrium Mechanics

Ongoing
The optimization of high-speed machining processes through powerful finite element modeling techniques is an important pathway to American manufacturing competitiveness in an increasingly competitive global marketplace. Quantitatively accurate simulations of machining rely on robust constitutive
photo of membrane in shock tube

Dynamic Pressure

Ongoing
Measurement Platform: We are developing a photonics based dynamic pressure measurement platform that will enable traceable, accurate measurement of dynamic pressure. To this end we are developing fast scanning laser absorption spectroscopy techniques that enable rapid measurement of pressure
USGS Map

Earthquake Risk Reduction in Buildings and Infrastructure Program

Ongoing
Objective: The Program’s objective is to develop and advance knowledge which can improve codes, standards, and design guidelines for earthquake risk mitigation of buildings and infrastructure systems with the focus on recovery-based design. These efforts supplement NIST’s role as lead agency for the

E-Authentication

Ongoing
Information regarding recent work can be found at our IDENTITY & ACCESS MANAGEMENT page.

Ecogenotoxicity Measurements of Nanoparticles

Completed
Intended Impact Understanding the potential environmental fate of NPs has direct implications to the US economy, as potential environmental and human health impacts of NPs is one of the main factors slowing the commercialization of this technology. Reducing the uncertainty regarding the

Edge AI

Ongoing
This project: Develops edge learning and edge-enabled collaborative learning algorithms. Develops measurement methods for testing the performance and robustness of edge-learned, and more generally collaboratively learned, AI/ML models. Collaborates with other projects (e.g., 5G/6G Core Network

Efficient Optical Spectroscopy of Single Solid-State Quantum Emitters

Ongoing
For emitters embedded in semiconductors, such as a quantum dot in GaAs, the fluorescence collection efficiency is limited by the large refractive index contrast between the semiconductor in comparison to the surrounding air. This causes most of the light emission to remain trapped in the
Allen Goldstein

Electric Power Metrology and the Smart Grid

Ongoing
Major advancements in electric power generation, transmission, distribution and loads over the last 20 years have led to improvements, reliability, robustness, efficiency and energy security unlike anything from the proceeding 80 years. Combined, this power grid modernization has been called the
Massively parallel wafer-level long-term reliability test system featuring 30 fully functioning mini probe stations each supporting 100 probe pins with all the supporting stress/measure electronics integrated (without cables).

Electrical Characterization of Nanoscale Electron Devices

Ongoing
Over the decades, many measurement methods were developed to meet the needs of advancing electron device/circuit/system technology. As technology continue to advance, new needs continue to surface, either due to old measurements are no longer adequate or due to no established method exists. A case
Electric Field Gradient reference prototype

Electrical Scanning Probe Microscopy

Ongoing
Electrical scanning probe microscopes (eSPMs) are a subset of scanning probe microscopes which measure some electrical parameter as well as surface topography. These include techniques such as scanning capacitance microscopy (SCM), scanning spreading resistance microscopy (SSRM), conductive atomic
surface acoustic wave sensor

Electroacoustic Wave-Based Flow Sensors

Ongoing
As part of our NIST-on-a-Chip efforts, we are developing strategies to measure local flow in microfluidic systems. This project will develop label-free flow sensors using surface acoustic waves embedded in microfluidic devices. In this approach, an electromechanical transducer is placed on a

Electrochemistry

Ongoing
Operando Measurements Measurements of the structure and dynamics of metal-electrolyte interfaces are essential for understanding mechanisms of electrocatalysis and electrodeposition that are key to optimization of materials processing and utilization in wet chemical environments. Our measurement
Field Parameter Metrology 2

Electromagnetic Field Strength Metrology

Ongoing
NIST calibrates electrically-small field probes from 10 megahertz – 40 gigahertz. These measurements are done in facilities that are periodically compared against other National Metrology Institutes in conjunction with the Bureau International des Poids et Mesures (BIPM). This assures international
EBIT

Electron Beam Ion Trap (EBIT) Facility

Ongoing
The NIST EBIT is a table-top device which can produce matter in excess of ten million degrees Kelvin. At these temperatures, even the heaviest atoms shed most of their electrons. The highly charged ions which result are trapped by a configuration of electric and magnetic fields in an ultrahigh
Three-dimensional view of carbon nanostructures grown on the surface of a glass fiber

Electron Microscopy of Carbon Nanotube Composites

Ongoing
Multi-wall CNTs (MWCNTs) are a common nano-carbon reinforcement material and are frequently dispersed into a polymer matrix to form composites that can be engineered with specific combinations of desirable properties – electrical, thermal, optical and mechanical, etc. However, this
solar cells

Electron-Beam Irradiation of Solar Cells

Ongoing
NIST irradiates solar cells that are manufactured by leading developers of high-efficiency solar photovoltaic cells for space applications. As part of the space-qualification process, the performance of these cells in a space environment must be validated. This validation process includes the