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Projects/Programs

Topic Area
Displaying 1151 - 1175 of 1644

Performance-Based Design Methodologies for Structures in Fire Project

Ongoing
Objective: By 2016, to develop performance-based methods to predict and evaluate fire behavior of steel and concrete structures and to deliver validated and improved tools, guidance, and draft standards for the fire resistance design and assessment of structures. What is the new technical idea

Performance-Based Seismic Engineering (PBSE) for New Buildings Project

Ongoing
Objective: To develop a measurement science tool by FY 2016 that is capable of directly, accurately, and efficiently simulating the initiation and progression of structural collapse, and to develop a methodology for quantifying acceptance criteria limits found in the ASCE/SEI 41 Standard [1] through

Personal Body Armor

Completed
To quantify the impact of mechanical degradation on ballistic fibers, NIST developed a novel device for controlled folding of yarns and woven fabrics. In addition, we developed test protocols that employ single fibers to assess the effect of folding using a recently developed modified single fiber
Image of AM/PM Noise Calibration Standard device made by NIST

Phase and Amplitude Noise Calibration Services

Ongoing
The primary responsibility of the Phase Noise Metrology Group is to develop and provide calibration services for industrial, military, and commercial organizations to support the core mission of NIST. The PM and AM noise measurements require traceability and certification of devices such as phase
Measurement device for signals in the W band (75-110 GHz)

Phase and Amplitude Noise Metrology

Ongoing
The group provides high-precision measurement of electromagnetic signals in the radio-frequency, microwave and optical range. These measurements include phase noise, amplitude noise and perturbations due to vibration and temperature. Such precision measurements support high-value applications such
beam box

The Photoforce Project

Ongoing
Traditional power meters measure the power of a laser beam by absorbing its energy. Radiation pressure (photon momentum) permits the measurement of a beam’s power by “absorbing” its momentum and reflecting its energy. Light reflecting from a mirror causes a force that is proportional to its optical
NIST Standard Photometer and NIST issued luminous intensity standard lamp

Photometry

Ongoing
The development of revolutionary energy-efficient solid-state lighting (SSL) products has sparked the need for new performance metrics and measurement methods to address their unique construction and operating conditions. NIST has been working closely with the U.S. Department of Energy (DOE)
Dosimetry_ResearchandMetrology_PhotonAbsorbedDose_pic_Tosh

Photon Absorbed-Dose-to-Water Primary Standards

Ongoing
Modeling of accumulated-dose dependence in the heat defect of H2/O2 exhibits expected peak behavior in qualitative agreement with experiment, and is being further refined for purposes of reducing the associated relative uncertainty from its present value of 0.3 %. Studies to quantify the possible
focused ion beam machining graphs

Photon Drag in Metal Films

Ongoing
The photon-drag (PD) effect is the rectified electrical current in a medium generated by radiation pressure. That is, the optical force delivered to an illuminated metal results in a measurable voltage across the film (Figure, left). For decades, this effect in metals has been understood in terms of
photonic calorimeter/dosimeter

Photonic Dosimetry

Ongoing
With this effort, NIST is responding to industry needs for traceable, measurement solutions that can resolve spatial variations of absorbed dose at the level of individual components on a silicon wafer or bacteria on surgical instruments. Presently, there is only limited traceability to national
Schematic of quantum entangled molecules or nanoparticles in dual cavity system.

Photonic Quantum State Imaging Metrology

Ongoing
Fundamental understanding of quantum behavior of single molecules, which is a favorable candidate for quantum information processing technologies, has advanced gradually, relying on empirical studies mostly. This requires a measurement platform to study fundamental quantum characteristics in single
Planar absolute cryogenic radiometer with multiwall vertically-aligned carbon nanotubes. Superconducting transition-edge sensor. Fully-lithographic fabrication.

Photonic Radiometry

Ongoing
Meeting the needs of the photonics industry and anticipating emerging technologies requires investigation and development of improved measurement methods and instrumentation. This project develops state-of-art, absolute microfabricated thermal detectors with absorber coatings consisting of carbon
SPoT chip

Photonic Thermometry

Ongoing
Why do we need reliable temperature metrology? Temperature, the second most measured physical property after time and frequency, is indispensable to innumerable industries, military services, medicine, climate, and weather forecasts – precise, accurate, and rapid temperature metrology enables much
An image showing the hybrid AFM + SLA system from the SPM4AMP project

Photopolymer Additive Manufacturing

Ongoing
NEWS September 2021: NIST and Radtech have launched a Photopolymer Additive Manufacturing Alliance (PAMA) to advance strategic goals for research, sustainability, and regulation in PAM. PAMA is on a mission to make photopolymer additive manufacturing (PAM) more accessible and to increase the safe
Martin1

Photopolymerization for Biomaterials

Completed
This project responds to priorities of National Institute of Dental and Craniofacial Research (NIDCR/NIH) for oral health by establishing clinical guidance/standards for adequate photocuring of restorative dental composites. Also, this project is intended to advance the knowledge relevant to thermal

Physical Infrastructure: Connections

Completed
The NIST Physical Infrastructure Program will provide the critical measurement science needed to assess the condition of aging physical infrastructure and guide cost-effective strategies for its maintenance, repair, and replacement. Infrastructure management challenges in the U.S. have received

Physical Layer Design and Evaluation

Ongoing
IEEE 802.11ay Physical Layer Modeling and Simulation NIST has developed models and simulation frameworks to evaluate the physical layer performance of IEEE 802.11ay under different channel environments based on real measurements. NIST IEEE 802.11ay EDMG Physical Layer Mode, implemented in MATLAB
He4 cryostat

Physics and Hardware for Intelligence

Ongoing
Our work in this area can be separated into two categories: conceptual and experimental. Please read our publications linked below for more information. Experimental: Our latest generation of synaptic circuits are described in a 2024 paper published in APL Machine Learning. These circuits are our
ACR receiver

Pico-Watt ACR

Ongoing
Design Parameters for Improved ACR Sensitivity An absolute cryogenic radiometer (ACR) is an electrical substitution instrument for calibrating optical power. A bolometer designed so that virtually all incident optical power is absorbed by the radiometer, an ACR allows for absolute calibration
Running crack in a buried pipeline.

Pipeline Safety

Ongoing
The U.S. operates more than 2.5M miles of natural gas, petroleum and hazardous liquid pipelines, crossing all 50 states and operated by more than 3,000 companies. Fluid hydrocarbon fossil fuels remain the world leading source of energy. The safest and most reliable means of transporting these fuels

Plasma Metrology

Ongoing
Plasma, the fourth state of matter, is common in both nature (e.g., lightning, the earth's ionosphere, stellar objects) and in modern technology (e.g., semiconductor processing, lighting, plasma televisions, medical equipment). Yet despite this ubiquity, the plasma state is still a wide open

Plasma Process Metrology

Ongoing
Intended Impact The model for rf bias effects that we have developed should make it easier for industry to select optimal operating frequencies and may stimulate the adoption of new methods for RF biasing, such as multiple-frequency bias and non-sinusoidal bias. NIST studies of electrical endpoint
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