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First direct measurement show how heavy particles containing a charm quark get caught up in the flow of early universe particle soup.
New detector enables electron microscope imaging at record-breaking resolution.
Scientists can now measure 3-D structures of tiny particles with properties that hold promise for advanced sensors and diagnostics.
New method can make films of atomically thin carbon that are over a foot long.
Scientists uncover a way to control terahertz radiation using tiny engineered particles in a magnetic field, potentially opening the doors for better medical and environmental sensors.
Laboratory automation applied to complex radiochemical isolation of astatine-211 from cyclotron-bombarded targets.
Particle flow patterns suggest even small-scale collisions create drops of early universe quark-gluon plasma.
Proton-irradiated thorium targets are successfully mined for therapeutic radium isotopes.
CMS observes Higgs boson decays into bottom quarks, furthering our knowledge of how the particles that make up matter behave.
New direct evidence for Higgs interactions with top and bottom quarks confirms its role in generating mass for constituents of matter.
Comparing new prediction to measurements of muons’ precession could potentially help scientists discover new subatomic particles.
The element’s unusual electron structure and behavior are vital to understanding and exploiting the chemical bonding and reactivity of the heavy elements.
