Searching for Mach Waves Inside a Perfect Liquid
Researchers develop a 2D tomography technique that will enable the search for Mach waves in the smallest droplets of quark-gluon plasma.
Researchers develop a 2D tomography technique that will enable the search for Mach waves in the smallest droplets of quark-gluon plasma.
Two new technologies allow scientists to edit specific species and genes within complex laboratory bacterial communities.
New approach helps protect tokamak walls while maintaining fusion conditions in the core.
Researchers have improved understanding of the photodissociation of pyruvic acid in the atmosphere.
Scientists studied antimatter in the proton with higher precision than ever before, revealing insights into the particle’s puzzling dynamics.
Scientists use quantum entangled light for a new form of microscopy able to detect signals normally hidden by quantum noise.
A recent measurement of the neutron-rich “skin” around lead nuclei reveals new details of neutron behavior and the dynamics of neutron stars
Short carbon nanotubes in liposome membranes help fuse the liposomes and cancer cells to directly deliver a cancer-killing drug.
Nuclear theorists demonstrate a new method for computing the strengths of subatomic interactions that include up to three particles.
Bacteria collection opens new directions for research on cottonwoods, poplars, and other trees useful for biofuel and other applications.
Researchers improve their scientific understanding of heterogeneous catalysis by imaging the gas just above the surface of the catalyst.
Ecological assembly and source tracking models characterize the initial assembly of the poplar microbiome across plant-associated habitats.