An optimized nuclear force model yields a high-precision interaction with an unexpected descriptive power.
Scientists make the first experimental determination of the weak charge of the proton and extract the weak charges of the neutron and up and down quarks.
Argonne superconducting radiofrequency technology boosts a variety of applications.
US-led experiments at the LHC recreate the brightest, most dense quark gluon plasma.
First measurements of isotopes produced by Argonne’s new CARIBU facility provide insight into the creation of the elements in the universe.
Adding platinum atoms tunes the color of emitted light.
A novel metal-organic framework (MOF) efficiently separates higher octane components from the low value ones, offering great potential for significant cost reduction in gasoline production.
Surprisingly large effect greatly increases the probability that new neutrino experiments will be able to see the differences between matter and antimatter.
Ionic liquids found to behave differently than expected.
Researchers create materials that can store lots of energy and deliver it quickly.
Using artificial nanostructures to control the properties of light could play a prominent role in the future of computing.
Nano-structuring may help superconductors overcome a decades-long barrier to use in more powerful motors and magnets.
