Intelligent Sensors Directly Analyze and Interpret Information in Light
Scientists invented new photodetectors that not only detect but also learn and think based on objects’ optical spectra.
Scientists invented new photodetectors that not only detect but also learn and think based on objects’ optical spectra.
Microscopes, x-rays, and spectroscopy tools join forces to identify defects that interfere with delicate superconducting qubit properties.
Scientists used powerful X-rays and computer models to uncover what causes surface defects in laser welds—and how to stop them.
Innovative, high-resolution X-ray microscopy system generates 3D images 20 times faster than the previous system.
A new technique reveals ultrafast processes in electrode-electrolyte interfaces under operating conditions.
A direct search shows that neutrinos are at least a million times lighter than electrons.
By measuring the delay between when a molecule absorbs a photon from an X-ray and emits an electron, scientists gained insight into how electrons interact.
Advanced microscopy reveals motifs of trace atoms in semiconductors, paving the way for new microelectronics designed atom by atom.
A new technique combining physics and machine learning enables scientists to quickly reconstruct details of particle beams without the need for large datasets.
A new study integrates fire processes into an Earth system model to help scientists simulate and better understand the impacts of pyrocumulonimbus clouds.
Scientists directly observed spin wave currents using advanced Resonant X-ray Scattering.
A new control framework enables automated, reliable control of quantum networks, paving the way for practical deployment.