The detection of neutrinos in particle colliders has been carried out by scientists. In the particle collider, these scientists succeeded in detecting neutrinos. In the field of physics, this discovery is extraordinary.
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Explanation of Neutrino Detection in Particle Colliders
As we know, subatomic particles are still mysterious. Moreover, the number of these particles is very abundant.
Subatomic particles slide like a spectrum. This is what earned him the nickname as a ghost particle.
For the first time, scientists have detected ghost particles that have the highest energy in destroying the largest atoms in the universe.
Interestingly, this discovery managed to reveal the secrets of the universe. Not only understanding how these particles are formed, their nature and role in the evolution of the universe. However, also knowing how a star can become a supernova.
These tiny particles, are known as neutrinos. The detection of neutrinos in the particle collider was discovered by scientists using the FASERnu detector at the Large Hadron Collider.
In fact, the results of these findings have been presented at the 57th Rencontres de Moriond Conference. The holding of the conference is related to Weak Electro Interaction and Integrated Theory in Italy.
Jonathan Feng as a particle physicist from the University of California, Irvine revealed, if they have succeeded in finding neutrinos from a new source, namely the particle collider. There are two beams of particles colliding with each other with very high energy.
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How to Catch Neutrinos
The detection of neutrinos in particle colliders cannot be separated from the various efforts made by scientists. To trap or capture these neutrinos requires special and more sophisticated tools.
In this invention, a particle detector was used in the form of a solid metal plate derived from lead and tungsten. The two materials are then sandwiched between a number of layers of a light-detecting substance which we commonly refer to as an emulsion.
This emulsion layer works in much the same way as old-fashioned photographic film, in that it reacts with the by-products of neutrinos to print or produce outlines of particles that are successfully tracked when the particles penetrate them.
By developing such a film-like emulsion, it will analyze traces of particles.
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Neutrinos at a Glance
Neutrinos are one of the most numerous subatomic particles. In fact, neutrinos rank second after photons.
However, neutrinos do not produce an electric charge. In addition, the mass is close to zero.
Uniquely, neutrinos hardly interact when they encounter other particles. In the human body, there are at least hundreds of billions of neutrinos.
Neutrinos fly through matter that approaches the speed of light. This fits his ghost moniker.
Prior to the detection of neutrinos in the recently discovered particle colliders, neutrinos were first detected in 1956. At that time, neutrinos were escaping from a nuclear reactor. (R10/HR-Online)
This post was last modified on Maret 23, 2023 10:18 PM
