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Turbulence Can Help Activate Aerosol Particles to Form Clouds
Turbulent air in the atmosphere affects how cloud droplets form. New research changes the way scientists model clouds and, therefore, climate.
Turbulent air in the atmosphere affects how cloud droplets form. New research changes the way scientists model clouds and, therefore, climate.
Scientists measure radioactive molecules at the extremes of physics.
Interactions of quantum “quasiparticles” demonstrate unusual fluid flow.
New concept would deliver continuous electricity while reducing cost and risk.
Microscopic features of neptunium dioxide control how contaminants dissolve in underground disposal of spent nuclear fuel.
Measurements and modeling demonstrate that perturbations to the magnetic field in a tokamak fusion plasma can suppress high-energy runaway electrons.
A unique coating camouflages the temperature of an underlying material
Nanotubes with designed defects allow better performance for next-generation optical telecommunications.
Measurements of nuclear charge radii and state-of-the-art nuclear models challenge the magic of neutron number 32 in potassium isotopes.
If physicists can find it, color transparency in protons could offer new insight into the particles that build our universe.
Soil warming leads to more complex, larger, and more connected networks of microbes in those soils
A unique coating camouflages the temperature of an underlying material