Researchers used ultrafast electron diffraction to image the structure of the pericyclic minimum, the “transition state” of electrocyclic reactions.
Researchers used ultrafast electron diffraction to image the structure of the pericyclic minimum, the “transition state” of electrocyclic reactions.
X-ray imaging shows that selectively etching surface nickel from a nickel-platinum alloy leaves a chemically active platinum coating.
Three-dimensional superconducting electrons choose to cross over to a flatter alternate dimension.
Experiments examine atomic disorder and dynamics that could explain beneficial optical properties.
Trapping electrons with atomic vibrations has the potential to tune behavior in a quantum material.
Scientists use supercomputer simulations to understand the complex interplay between large-scale ion and small-scale electron plasma motion in determining fusion performance
Scientists image the complete set of light-induced quantum states in 2-D crystals of tungsten disulfide and reveal the mechanisms coupling these states.
Data on protons emitted from wide range of gold-gold collision energies shows absence of a quark-gluon plasma (QGP) at the lowest energy.
Exascale computing power helps researchers understand bubble behavior that can handicap reactor technology designed to capture carbon dioxide emission
National laboratory researchers partner with a private company to achieve 100-million-degree temperatures inside a high magnetic field spherical tokamak.