The Neutrino - An Elusive Beast

Neutrinos - elusive beasts are firing countless neutrinos every second on the surface of the earth. It is radiated from a distant star. Finding a neutrino in your own backyard is easy. It is enough to have 10 tons of purified water, 13000 photomultipliers, and $ 11 million research funding. I will explain in detail later, but first, it is convenient to know what you are looking for. Neutrino is an elusive beast with no mass and no charge.

One of the few events that has attracted worldwide attention in particle physics over the past few years is neutrino research. Neutrinos are huge, elusive particles produced by the fusion process under the sun. These particles are low in charge, in fact they are small in mass and weak in particles, so they acquire a central phase appeal. This may be the formation of the universe and our understanding of our forefront. These somewhat shy particles do rarely interact with matter, of which nearly 65 million particles do not overtake you. They were originally proposed in 1930 by Austrian physicist Wolfgang Pauli and Italian physicist Enrico Fermi to explain beta. Collapse process It is only in 1956 that we confirm their existence, and since then the researchers have worked on this somewhat confusing particles

Neutrinos - elusive beasts are firing countless neutrinos every second on the surface of the earth. It is radiated from a distant star. Finding a neutrino in your own backyard is easy. It is enough to have 10 tons of purified water, 13000 photomultipliers, and $ 11 million research funding. I will explain in detail later, but first, it is convenient to know what you are looking for. Neutrino is an elusive beast with no mass and no charge.

Dark matter can be composed of the most elusive particles of all time - sterile neutrinos. They are heavier cousins ​​of ordinary neutrinos, only interacting with other substances by gravity - making them inherently undetectable. However, they may have the correct nature, become "warm" dark matter, squatting at a speed of several kilometers per second, forming a mass of larger dark matter drawn by recent observations. Sterilizing neutrinos also help form stars and black holes in the early universe, allowing neutron stars to fly around our galaxy.