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Phys.Org
Neutrino experiments look to reveal big answers about how these fundamental particles interact with matter
Neutrino experiments look to reveal big answers about how these fundamental particles interact with matter
Except in horror movies, most scientific experiments don’t start with scientists snooping around narrow, deserted hallways. But a tucked-away location in the recesses of the Department of Energy’s (DOE) Oak Ridge National Laboratory (ORNL) provided exactly what Yuri Efremenko was looking for. Efremenko, an ORNL researcher and University of Tennessee
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The secret: measuring an antineutrino’s energy
The secret: measuring an antineutrino’s energy
The MINERvA collaboration analyzed data from the interactions of an antineutrino—the antimatter partner of a neutrino—with a nucleus. They were surprised to find evidence that antineutrinos interacted with pairs of particles inside the nucleus. They had expected antineutrinos to interact with just single protons or neutrons. To see this evidence,
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Why Doped Graphene Is the Key to Neutrino Energy Solutions
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Scientists claim that all high-energy cosmic neutrinos are born by quasars
  • Februar 22, 2021
A new PROSPECT for national security – via neutrinos
  • Februar 17, 2021
Latest Posts
Scientists claim that all high-energy cosmic neutrinos are born by quasars
  • Februar 22, 2021
A new PROSPECT for national security – via neutrinos
  • Februar 17, 2021
NASA selects astrophysics mission to detect ultrahigh-energy neutrinos
  • Februar 13, 2021
Latest News
The Pi – Harvesting the energy of vicinity
The Pi – Harvesting the energy of vicinity
Electronics tuned in twisted bilayer graphene
Electronics tuned in twisted bilayer graphene
Did You Know

A few years ago, lots of people believed that neutrino energy is just a form of science fiction, and many thought that our present technology wouldn’t able to produce one. There are also people who are saying that our physical capabilities are limited, and it is not enough to create and harness neutrino energy. However, everything changed as scientists have discovered a way on how to produce the energy, and it instantly became news around the world.

In 2015, Takaaki Kajita, a scientist from Japan, and Arthur McDonald, a physicist from Canada, discovered that neutrinos have masses. Neutrinos are one of the smallest cosmic particles, scientists thought that they do not have mass, but some are speculating that it might have its mass because it is a form of matter. Takaaki Kajita and Arthur McDonald developed their mechanism to find out the crucial information about neutrinos. Their research was presented to the scientific community, and they won the Nobel Prize for Physics because of their monumental discovery.

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