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Optomechanical Pressure Measurement System And Method Using The Vibrational Modes Of A Membrane | NIST
December 15, 2023
This article describes a new optomechanical system for measuring extremely low pressures, ranging from 10⁻⁶ Pa to 10⁻²
Methods For Electrically Charging Nanocrystals At Very Large Areas | NIST
December 14, 2023
Title: NIST Discloses Methods for Uniformly Charging Nanocrystals at Large Areas NIST researchers have developed innovative methods for
Hybrid Subtractive-Additive Method Of Producing A Superconducting Multi-Layer Transition-Edge Sensor | NIST
December 14, 2023
A new method for producing superconducting multi-layer transition-edge sensors has been proposed by researchers at NIST. The key
Simple, High Dynamic Range, And Efficient Extraction Of Phase Map (SHEEP) For Point Source Atom Interferometry | NIST
December 14, 2023
Researchers at NIST have developed a new method called SHEEP (Simple, High dynamic range, and Efficient Extraction of
Planar Inverse Anapole Microresonators For Inductive-Detection Electron Paramagnetic Resonance Spectrometry | NIST
December 14, 2023
Researchers at NIST have developed a new type of microresonator called a “planar inverse anapole” that significantly improves
Josephson Junction Circuits For Single-Photon Optoelectronic Neurons And Synapses | NIST
December 14, 2023
Researchers at NIST have developed new circuits using Josephson junctions (JJs) that enable key functions for single-photon optoelectronic
Optical Parametric Oscillator And Producing Idler Coherent Light And Signal Light From Pump Coherent Light | NIST
December 14, 2023
Title: NIST Develops Compact, Low-Power Optical Parametric Oscillator for Quantum and Classical Applications Summary: Researchers at the National
Quantum-Enabled Flow Cytometer | NIST
December 14, 2023
NIST researchers have developed a quantum-enhanced flow cytometer that can self-calibrate and achieve unprecedented sensitivity for detecting and
Light Article | NIST
December 14, 2023
Title: NIST Discloses Methods for Uniformly Charging Nanocrystals NIST researchers have developed methods for uniformly charging nanocrystals, enabling