Adding a little oxygen to particle accelerator structures may make them more efficient and easier to build.
Monitoring photo-excited electrons in real time with nanometer sensitivity reveals strengths and weaknesses in a common light-harvesting material.
Scientists demonstrate the value of a new global atmosphere model for the Energy Exascale Earth System Model.
Six years of radar data from the Atmospheric Radiation Measurement (ARM) user facility site in Utqiaġvik, Alaska provide important details on how secondary ice particles form in Arctic clouds.
An operating mode called wide pedestal quiescent H-mode allows tokamak operation without detrimental edge instabilities.
The search for “broken symmetry” may offer new insight into nuclear structure.
Ground-breaking image reconstruction and analysis algorithms filter out cosmic rays to pinpoint elusive neutrinos.
New approach helps protect tokamak walls while maintaining fusion conditions in the core.
Physicists use the Summit supercomputer to better understand a family of superconductors.
Scientists studied antimatter in the proton with higher precision than ever before, revealing insights into the particle’s puzzling dynamics.
Researchers create DNA nano-chambers with bonds that can control the assembly of targeted nanoparticle structures.
Ozone injection may lead to cleaner, more efficient internal combustion engines.
