Explore antimatter's explosive potential as the most powerful energy in the universe. Learn about its production, groundbreaking research, and future applications.

JUNO will identify the heaviest neutrino type using advanced detectors Located 700m underground, JUNO features a 35m-wide acrylic sphere Antineutrinos from nearby nuclear plants will be key to JUNO's ...

The JUNO experiment, which will study the ways of the electrically neutral subatomic particles, will be the largest of its kind.

Fermions are just one of the basic categories of particles, and almost all of them are Dirac, meaning they have a complementary and distinctive antiparticle—think electron and positron. The ...

Doctoral candidate Gabriel Bridges and postdoc Kaliroë Pappas filled Columbia News in on their work hunting for dark matter.