These experiments analyze the energy spectrum of electrons emitted during the decay process, particularly near the endpoint of the spectrum, where the effects of neutrino mass are most pronounced.

A compact method of detecting neutrinos provides new tests of physics theories and could lead to new reactor-monitoring methods.

A team of researchers has developed a neutrino detector made of germanium crystals. When they installed the detector at the ...

(1-3) A first question arising from these extremely demanding to measure and dramatically different mass values of neutrinos vs those of the basic constituents of atoms (i.e., protons, neutrons and ...

Neutrinos are beyond strange. There are three varieties, and they each have almost no mass. Additionally, they are also all ...

Detecting dark matter, the elusive type of matter predicted to account for most of the universe's mass, has so far proved to ...

From the coupling form factors, the axion emissivities ϵ a can be derived, from which fluxes can be determined. We predict a photon flux, which may be detectable by Fermi LAT, and limits on the QCD ...

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 ...

A new underground facility called DUNE, which will accelerate particles for 800 miles between Illinois and South Dakota, ...

Scientists in China have almost finished building a massive underground detector to sniff out mysterious particles called neutrinos. Neutrinos are tiny, cosmic particles with a mind-bogglingly small ...

Physicists are putting the finishing touches on the Jiangmen Underground Neutrino Observatory, or JUNO, which will delve into the secretive ways of neutrinos, a family of extremely lightweight ...