
Tracking Down Helium-4’s Quarks and Gluons
Scientists obtain the first exclusive measurement of deeply virtual Compton scattering of electrons off helium-4, vital to obtaining an unambiguous 3-D view of quarks and gluons within nuclei.
Scientists obtain the first exclusive measurement of deeply virtual Compton scattering of electrons off helium-4, vital to obtaining an unambiguous 3-D view of quarks and gluons within nuclei.
Optimizing lithium-sulfur battery electrolytes for long life.
Catalog of candidate genes involved in plant-microbe relationships.
Researchers develop a method of identifying gene expression patterns in drought-resistant plants.
New algorithm lets biologists harness massively parallel supercomputers to make sense of a “data deluge.”
Magnesium ions move very fast to enable a new class of battery materials.
Scientists directly see how the atoms in a magnesium-based battery fit into the structure of electrodes.
Scientists mimic a worm’s lethal jaw to design and form resilient materials.
Converting laser light into nuclear vibrations is key to switching a material’s properties on and off for future electronics.
Scientists demonstrated that powerful acids heal certain structural defects in synthetic films.
Novel engineered polymers assemble buckyballs into columns using a conventional coating process.
Lasting just a few hundred billionths of a billionth of a second, these bursts offer new tool to study chemistry and magnetism.