Neutrinos are subatomic particles with a mass very close to zero ... because it allows building the right size and shape of neutrino detectors. Currently, they are very large, which allows ...

Physicists have shone a light, so to speak, on a key missing value for neutrino mass. The highly magnetic element holmium was trapped and subjected to mass spectrometry. Reducing the range of the ...

Europe's physics lab CERN is planning to build a particle-smasher even bigger than its Large Hadron Collider to continue ...

These particles are so ghostly that trillions of them pass through Earth each day without notice. So, how do we detect them?

Harvard astronomer Avi Loeb discusses how scientists trace the cosmic journey of high-energy neutrinos from the Big Bang to ...

Constantinos G. Vayenas explores the roles of neutrinos, quantum mechanics, and special relativity in baryogenesis ...

A newly published study in the Journal of Cosmology and Astroparticle Physics JCAP has not detected any signals attributable to quantum gravity effects in the neutrinos observed by the underwater ...

The Tokai-to-Kamioka (T2K) long-baseline neutrino experiment measures neutrino oscillations over a baseline of 295 km using a ...

As they studied atomic disintegration, they kept seeing that the atomic number (number of protons in the nucleus, equivalent to the positive charge of the atom) was less than the atomic mass ...