Researchers Mitsuyoshi Kamba, Naoki Hara, and Kiyotaka Aikawa of the University of Tokyo have successfully demonstrated ...

In June, the US National Academies of Sciences, Engineering, and Medicine published an unprecedented 40-year strategy for US ...

This week, this enormous scientific facility, ten years in the making, will begin its hunt for the most elusive particles in ...

Knowable Magazine reports that neutrinos may help explain the universe's missing antimatter, shedding light on ...

A levitated nanoscale particle in vacuum represents an isolated system where researchers can study the transition between classical and quantum mechanics. It also offers a testbed for building new ...

A new particle detector has passed a crucial test that shows it is ready to detect the "ashes" left over from a unique primordial soup that filled the universe immediately after the Big Bang. This ...

This week, this enormous scientific facility, ten years in the making, will begin its hunt for the most elusive particles in the universe At the foot of the thickly forested Dashi Hill, in southern ...

Deep beneath southern China, JUNO has launched one of the most ambitious neutrino experiments in history. With its massive 20,000-ton liquid scintillator detector now operational, it’s poised to ...

Scientists using Google’s quantum processor have taken a major step toward unraveling the deepest mysteries of the universe. By simulating fundamental interactions described by gauge theories, the ...

The detector is housed at the centre of a 44 metre-deep water pool. China has officially launched the Jiangmen Underground Neutrino Observatory (Juno), now the world's most powerful and advanced ...

Detected by Boston College researchers, the axial Higgs mode, and materials that contain it, could support quantum sensors to help answer persistent questions in particle physics The previously ...