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.
The evolution of a sandstone’s texture, structure, and stress was measured during deformation for the first time.
Scientists directly observed spin wave currents using advanced Resonant X-ray Scattering.
Researchers have used an undulator’s magnetic field to generate and control ultrafast X-ray pulses.
Using the Advanced Light Source and Molecular Foundry, researchers identified the chemical stew found in samples of the asteroid Bennu.
Using DNA scaffolding, scientists developed a universal method for producing a wide variety of functional, 3D metallic and semiconductor nanostructures
By combining a chiral semiconductor with an LED, scientists controlled the orientation of electron spin.
Researchers used a multimodal approach to determine the metal-substrate interface in a superconducting qubit material.