
Hunting for Sterile Neutrinos with Quantum Sensors
A new approach for measuring nuclear recoils in superconducting quantum sensors enables the first limits on sterile neutrinos from beryllium-7 decay.
A new approach for measuring nuclear recoils in superconducting quantum sensors enables the first limits on sterile neutrinos from beryllium-7 decay.
New measurements provide insights for geochronology and reactor design.
Harnessing the intensity of a terahertz laser pulse brings the resolution of electron scattering closer to the scale of electron and proton motion.
Oil-free, nanoscale solid lubricant creates ultra-slippery layer between sliding surfaces in machinery
Built with detector technologies used in nuclear physics experiments, the system monitors radiation treatments in hard-to-reach areas.
New self-supporting composite metal material doubles the volumetric energy and achieves fast charging rates in batteries.
Production of actinium-227 ramps up for use in a drug to fight prostate cancer that has spread to bone.
Atom probe tomography reveals key explanations for stable performance over a cutting-edge diesel-exhaust catalyst’s lifetime.
Creating nanotextured glass surfaces completely eliminates reflections of all colors of light, making the glass nearly invisible.
Scientists use ion beams to write high-purity metal structures, enabling nanofabrication opportunities.
New spectroscopic technique measures heat in itty-bitty volumes that could reveal insights for electronics and energy technology.
Intuitive visual analytical model better explains complex architectural scenarios and offers general design principles.