New insights into the decay of a hadron particle known as a charmonium could potentially reshape our understanding of particle interactions and challenge existing theories.

New insights into the decay of a hadron particle known as a charmonium could potentially reshape our understanding of particle interactions and challenge existing theories.
Tackling heat transfer, diamond layers help build 3D circuits with lower power consumption, faster signaling, and increased performance.
Their unprecedented control over light will lead to breakthroughs in telecommunications, medical imaging, and quantum computing.
“Magic angles” in twisted bismuth bilayers could induce superconductivity at more reasonable temperatures.
By adding primordial magnetic fields to the Standard Model, researchers may solve the mystery of the Universe’s expansion.
Tiny interactions between dark matter particles may resolve discrepancies between theory and astronomical observations caused by quantum tunneling.
Something unexpected happened when atoms of gallium were observed to spontaneously transition from solid to liquid and back again.
Even tiny deviations in pendulum behavior caused by quantum gravity could be clearly noticeable, say researchers.
Quantum dots are key to a new laser that could transform medical imaging, diagnostics, and boost communication.
Scientists create magnetism in a non-magnet at room temperature for the first time, with implications in quantum tech and computer science.