According to foreign media reports, scientists at the Massachusetts Institute of Technology have recently achieved a major research result through the experiment of the Large Hadron Collider. A completely new substance was produced in their experiments. This research result has contributed to the development of modern atomic physics. Of great significance.
The researchers said, "The high-speed impact of protons and lead ions in the Large Hadron Collider will cause the internal particles of the two to produce unexpected movements, thereby generating new things." A research report released by the Massachusetts Institute of Technology The possible new substances produced are called "stained glass concentrates".
A proton collides with a lead nucleus, and a particle swarm is generated in the Alice detector.
Experiments conducted in the Large Hadron Collider produced a completely new substance.
When the particle beams collide with each other at high speed, hundreds of new forms of particles will be generated, most of which will fly away from the point of impact at the speed of light. However, the compact muon spiral magnetic spectrometer team observed from 2 million lead protons that some particles have a certain correlation in the direction of flying away. MIT physicist Gunter Roland said that some particles even fly in the same direction, which surprised the scientists. Scientists wonder how these particles "communicate" their direction with each other. Professor Gunter-Roland and Assistant Professor Li Wei (WeiLi) of Rice University completed the research on impact data. An academic paper describing this surprising discovery will be published in the journal Physics Review B shortly.
Researchers at the Massachusetts Institute of Technology discovered some phenomena with significant differences in the direction of particle movement two years ago. This apparently different flying phenomenon once happened to lead ions and other heavy metal ions, such as gold and copper. These heavy metal ions produce a substance called "quark gluon plasma" during the impact, which is a form of particles that appears within a few millionths of a second after the Big Bang.
In the hadron collider, this quark gluon plasma causes some particles to move in the same direction. This research also confirmed a phenomenon: the collision of protons will also produce a liquid wave gluon called "stained glass concentrate". Senior scientist Radu Wengepalan of Brookhaven National Laboratory said, "There will be some unusual collisions between these dense gluons." Radu Wengepalan did not participate in this event. Research, but he had some research results in this field before. Wenger Palan and his former student Kevin Dasling had already proved the existence of "stained glass concentrate" before the phenomenon of particle-related motion in proton collision.
Protons are made up of three quarks at regular energy levels, but at higher energy levels you get an additional gluon cluster. These gluons exist in the form of particles and waves, and their wave-like motions can cooperate with each other. The principle of quantum winding can explain why these particles can share a common flight path in the process of moving outward from the impact point. This synergy is a very weak effect, but it is very important for some very basic arrangements of quarks and gluons within protons.
Roland said, "We don't expect quark gluon plasma to react with lead protons, but this is a kind of reference movement. In this reference movement, you can study the collision process of lead protons. This movement will only last for about 4 hours, and the Large Hadron Collider will continue to conduct lead-proton collision experiments in the next few weeks to collect more data to determine whether it is true during the impact. Will produce a liquid form. "
The research results will provide a clearer research direction for explaining some of the phenomena generated by particle collisions, and in this way determine whether there is a correlation between proton collisions, lead proton collisions and other particle collisions.
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