OC-100 | NIST
Title: NIST’s 100mm Orange Cryostat: A Versatile Tool for Neutron Research The National Institute of Standards and Technology (NIST) has…
DCS Disk Chopper Spectrometer | NIST
Title: NIST’s Disk Chopper Spectrometer: A Versatile Tool for Scientific Research The National Institute of Standards and Technology…
Spectroscopic Properties of Sr Dimer – References | NIST
This article discusses the spectroscopic properties of strontium dimer (Sr2) molecules and their potential applications in precision…
Interferometry: INFER – Neutron Interferometric Microscopy of Small Forces and Hierarchical Structures | NIST
NIST’s INFER project aims to develop far field neutron interferometers for multi-scale imaging and precision measurements of fundamental…
Index of Semiconductor Process Gases – Carbon Monoxide | NIST
The article presents a comprehensive table of thermophysical properties for carbon monoxide (CO) relevant to semiconductor manufacturing. Key…
Scanning Tunneling Microscope | NIST
The scanning tunneling microscope (STM) is a powerful tool for studying metal surfaces at the atomic level. Invented in the 1980s, it works by…
X-ray Polarization | NIST
This article discusses the use of the Electron Beam Ion Trap (EBIT) at NIST for studying highly charged ions and their interactions. The EBIT…
A Brief History of Atomic Clocks at NIST | NIST
The development of atomic clocks at NIST (now NIST) began in 1945 with the suggestion to use atomic beam magnetic resonance. In 1949, NIST…
Making quantum measurement useful: Quantum State Discrimination beyond classical limits | NIST
Researchers at NIST have developed a new quantum measurement technique that surpasses classical limits, allowing them to determine the state…