However, the energy range of the superheavy antimatter particles discovered this time is between 7.2tev and 7.3tev. The magnitude of this energy range is too high. Currently, there is only one particle collider in mankind that can do this.
That is, the hadron collider at CERN can reach such a high energy region. There is no collider anywhere else that can reach such a high energy region.
Therefore, many scientists began to gather towards Geneva.
Even big bosses at the level of Yang Zhengning began to gather in Geneva.
This has fundamentally changed from the previous search for the Higgs particle. To put it bluntly, the importance of the Higgs particle lies in the establishment of the standard physical model, which has iconic significance.
In fact, most people have already confirmed the existence of the Higgs particle, they just need the final proof.
But the meaning of this latest super-heavy antimatter particle is completely different.
Because this particle is outside the standard model, and it is also antimatter!
Human beings have always been pursuing antimatter. Antimatter is an extension of the concept of antiparticles. Antimatter is composed of antiparticles. The combination of matter and antimatter will be like the combination of particles and antiparticles, causing the two to annihilate and release high-energy photons or gamma
ray.
The combination of matter and antimatter will cause annihilation, and humans have been trying to track the traces of antimatter and antiparticles.
However, after antiparticles are created, the time they exist in space is so short that people have no time to observe them.
And currently, some antiparticles captured or deliberately created by humans have very light masses.
Then why is this antiparticle so heavy in such a high energy region? What does this mean?
Also, according to the normal standard model, if there is an antiparticle, then it should have its corresponding positive particle. Where is its corresponding positive particle?
According to the law of conservation of energy, the mass of this positive particle can only be equal to the antiparticle!
That’s a big deal!
A major event in the entire world of physics!
Almost all condensed matter physicists and high energy physicists began to converge towards Geneva. These scientists were very interested in this newly emerged antimatter particle.
At this time, Cheng Hao was in his room, looking at the large amount of data in front of him, frowning and thinking.
Such antimatter particles cannot be directly observed, or in other words, most particles cannot be directly observed.
Many times, in addition to instruments, most scientists rely on theoretical frameworks and data calculations to determine the existence of this particle.
Cheng Hao has used data to fully prove to everyone the regularity of the appearance of this particle, and that this particle really exists.
What needs to be done now is to determine the physical laws of this particle, improve the logic line of this particle, and then be able to determine the existence of this particle.
The next step is to perfect the particle system, just like the standard physical system.
The establishment of a brand new system not only requires a genius to lead the way, but also requires countless physicists to verify and establish this system.
For example, in particle physics, the Standard Model is a set of theories that describe the three basic forces of the strong force, the weak force and the electromagnetic force, as well as the elementary particles that make up all matter. It was inspired by Chen Ning Yang's non-Abelian field theory and belongs to the quantum
The category of field theory and is compatible with quantum mechanics and special relativity.
Over the years, countless physicists have tried to break the Standard Model, but as they continue to break it, they are improving the Standard Model.
Physicists have verified the particles in the Standard Model one by one with the confirmation of data from countless experiments and mathematical deductions.
For example, before w bosons, z bosons, gluons, top quarks and charm quarks were discovered, the standard model had already predicted their existence, and estimated their properties very accurately.
Although the physics community has also found some substances that exceed the standard model during this process, those substances have no way to shake the standard model.
Will the superheavy antimatter particles discovered this time have any impact on the Standard Model?
Cheng Hao is not sure either.
He is not that proficient in quantum physics. After all, his professional field is still in the field of mathematics. He is very confident in his mathematical abilities.
But in the large-scale field of quantum physics, he is still a little behind.
Thinking of this, Cheng Hao sighed slightly.
No way, Cheng Hao's main focus was on mathematics. Cheng Hao didn't spend too much effort to learn the concepts and deep-level things in quantum mechanics.
The discovery of this superheavy antimatter particle this time was just a coincidence, because a mathematical coincidence allowed him, a mathematician who is extremely keen on numbers, to pass calculations.
I found something wrong here, there was something wrong with the energy disappearance.
Through calculations, it was discovered that there was a particle here, and boldly based on the disappearance pattern, it was speculated that it was probably an antimatter particle!
Then the law of the appearance of this particle is calculated, and finally through the impact experiment, the detector detects the whereabouts of this particle!
Proved Cheng Hao’s calculation!
However, it turns out that this particle also inspired a lot of Cheng Hao's research, giving him a good understanding of the mathematical properties of antimatter particles.
After writing some calculations, Cheng Hao came out of his room.
The discovery of antimatter particles caused a shock in the entire academic world, and many physicists rushed to the remote European Nuclear Center in Geneva.
Cheng Hao walked to the lobby of Building 1.
Just as he walked into the hall, Cheng Hao saw a familiar person.
“Well done.”
Academician Wang said with a smile in his eyes as he looked at Cheng Hao in front of him.
Hearing what Academician Wang said, Cheng Hao showed a hint of apology. He looked at Academician Wang in front of him and said, "Professor, I'm really sorry. I messed up your report meeting and let Yanda's report..."
"What kind of destruction is this?"
Academician Wang smiled and said to Cheng Hao in front of him: "It should be said that you found this superheavy antimatter particle after finding the blind spot in our report meeting! Your achievements at the China Institute of High Energy Physics are comparable to those of others.
Rong Yan! Department of Physics of Yan University, and You Rong Yan!"
Hearing what Academician Wang said, Cheng Hao smiled awkwardly. At this time, he still wanted to say something.
There was a sudden commotion among the many physicists nearby.
"Professor Yang Zhengning!"
I don't know who shouted, and Academician Wang and Cheng Hao both looked in the direction of the sound...