31 diffraction positions at NIST

Exploring Material Behavior Across Scales: Mechanical Characterization, Microstructural Analysis, FEA/AI/ML Modeling, and Automation Approaches

NIST | Gaithersburg, Maryland | United States | 1 day ago

backscatter diffraction (EBSD), energy dispersive spectroscopy (EDS), and synchrotron-based X-ray diffraction (XRD) to explore the structure-property relationships of materials across different length scales

DUV/EUV Nanoscopy for Characterization of Nanoscale Devices

NIST | Gaithersburg, Maryland | United States | 1 day ago

to reliable manufacturing of the next generation computing devices. Computational imaging methods such as coherent diffractive imaging, Fourier ptychography, structured illumination techniques, and other super

Measurements of the Underlying Processes of Metals Deformation

NIST | Gaithersburg, Maryland | United States | about 24 hours ago

on the presence and distribution of such strains. Many other high-impact studies are possible using techniques (both in situ and ex situ ) such as TEM, AFM, SEM, and X-ray diffraction on single crystals

Computational Modeling of Fracture and Fatigue in Hydrogen Environments

NIST | Boulder, Colorado | United States | 1 day ago

mechanical testing, microscopy, and diffraction techniques, into physics-based predictive models needed to implement hydrogen-safe infrastructure and predict hydrogen-resistant alloy designs for the future

Identifying Material Behavior from Measurements and Simulations in Advanced Mechanical Testing

NIST | Gaithersburg, Maryland | United States | about 24 hours ago

there is interest in expanding to include inverse methods based on model-inspired analysis of experimental data by itself. Additional data streams from infrared imaging and diffraction stress measurements

Magnetic Nanotechnology

NIST | Gaithersburg, Maryland | United States | about 24 hours ago

, superparamagnetism, magnetorheology, and enhanced magneto-optic Kerr effects. In addition to a suite of magnetic measurements, numerous nonmagnetic measurement tools, including x-ray diffraction, electron and optical

Magnetic Nanoparticles for Biomedical Applications

NIST | Gaithersburg, Maryland | United States | about 24 hours ago

diffraction, electron microscopy, and small-angle neutron scattering. Concurrently, another research area focuses on developing methods to quantify the primary characteristic for a particular application

Scientific machine learning methods for trustable accelerated materials characterization and design

NIST | Gaithersburg, Maryland | United States | 1 day ago

diffraction, x-ray absorption spectroscopy for the quantification of chemical short range order, and automated microstructural image analysis. The simulation approaches of interest include machine learning

Materials characterization and performance of additively-manufactured alloys

NIST | Gaithersburg, Maryland | United States | about 24 hours ago

measurements during the build process.  Material characterization includes SEM and TEM methods, lab and synchrotron X-ray diffraction, DSC, dilatometry, synchrotron X-ray and neutron residual stress measurements

Mechanisms and Kinetics of Membrane Protein Crystallization in Self-Assembled Mesophases

NIST | Gaithersburg, Maryland | United States | about 24 hours ago

of the difficulty of producing membrane protein crystals of the quality required for high-resolution x-ray or neutron diffraction studies. Numerous approaches involving surfactant-based systems exploiting