Genius of the Rules-Style System
Chapter 304 Smoot: This is the theory of establishing a sect
Office on the first floor of the Faculty of Science.
Zhao Yi was briefly explaining his new research to several professors.
Several physics professors were very interested in his research, and mathematics professors such as Hu Zhibin and Zhou Li also came to listen carefully.
"My research is based on the existing physical system and the imagination of particle composition. The main content is to explain the composition rules of particle boundary energy."
Zhao Yi gave a brief introduction.
He started with the two most basic definitions, one is the particle in the title, and the other is the boundary.
Many kinds of things can be called particles, such as atoms, protons, electrons, photons, etc.
The definition of particles in particle theory is the 'minimum component', which can be understood as photons, neutrinos, electrons, bosons, etc.
Another definition is ‘boundary’.
The definition of the boundaries of particles is very vague. There is no discussion about the composition of particles in existing physics. And particles are certainly not like a glass ball, and some are purely composed of energy.
The definition of boundary in particle boundary theory is ‘the part that first reacts when the initial collision occurs’.
"If the Earth is regarded as a collision target, the first reaction must be in the very high gas layer closest to the vacuum of the universe."
"If it were a particle, it wouldn't necessarily have an outermost layer. The part that reacts would be composed of internal energy."
"The internal energy composition is also defined as the boundary for unified treatment. Some particles may be purely composed of energy, so the definition of the boundary includes the particle itself."
Zhao Yi spoke carefully, and everyone listened attentively.
Next comes the topic, "I believe that the composition rules of particle boundary energy determine the properties of the particle itself."
"The energy distribution at particle boundaries is irregular and not conserved.".
"If the particle's boundary energy is, under certain circumstances, forced to reach equilibrium, the boundary will dissipate."
During the explanation process, Zhao Yi began to write and draw on the whiteboard, using mathematical methods to explain what he said.
This is very important.
If the particle boundary energy is conserved, dissipation will occur, which is used to explain the principles of various physical and chemical reactions.
There is also evidence from physics research. For example, when a beam of photons shines on a mirror, the photons seem to be reflected. At the moment of reflection, it can be considered that the boundary energy of the photons has reached a balance and will definitely dissipate.
In fact, this is also true.
The photons contained in the reflected light speed are all newly generated, while the photons contained in the original light beam have all dissipated.
This is exactly what Lisa Randall cannot accept.
Lisa Randall’s ‘fifth dimension’ research believes that some particles do not dissipate but enter the ‘fifth dimension’.
If "The Boundary Theory of Particles" is recognized by more people, Lisa Randall's research will obviously become a joke. Then some people may call her a "female liar in the theoretical physics community of the new century."
That is certainly intolerable.
Next, Zhao Yi began to give a brief description of various particles. The core point is, "The fundamental reason for the different properties of particles is that the composition rules of boundary energy are different."
Some particle boundary energies diverge to the extreme, such as photons, which will exhibit very significant characteristics.
Some particles are exactly the opposite. Their boundary energy is very restrained and difficult to detect, but they have relatively strong penetrating power.
"For example, for small objects of the same mass, the higher the density and the smaller the volume, the stronger the penetrating power will be. On the contrary, the penetrating power of things distributed in a fluffy shape will definitely be greatly weakened. It’s easy to block and has very distinctive features.”
These are followed by brief discussions of various examples.
That’s pretty much it.
Zhao Yi did not continue to explain. His research content was not much. He only gave a general framework and released a brand new theory and perspective.
In the office.
Several professors understood it completely. This was the first time they had heard of this kind of analysis, and they didn’t know how to comment specifically.
Gao Yihua was relieved that he understood it completely, unlike just now at the door of the building, where he had no idea what it meant.
He coughed lightly and made a simple comment, "A very novel point of view!"
"Yes, very novel!"
"very impressive!"
"It's really refreshing. If you think deeply, there are many things that can be studied, such as combining with the four powerful forces..."
Several physics professors talked a lot, and they all expressed admiration for the theory, but in fact, Zhao Yi knew very well that there was nothing worthy of praise in what he said.
The reason why they expressed their admiration was probably just a courtesy, right?
If it were just the above content, some laymen would be able to come up with a brand new theory just by relying on their imagination. But in fact, physics is as rigorous as mathematics, and the most basic thing is mathematical calculations.
His research also uses mathematical methods to describe the energy situation at the particle boundary, rather than just imagining a set of theories.
These mathematical calculations, representations, and structures are the core content of research.
On the basis of existing quantum physics research, the boundary mathematical framework he created can be said to be close to perfection and can be used to explain many things, but the content is also very obscure.
Because it is difficult to understand, there is no need to explain it carefully.
"Let's wait until the paper is published." Zhao Yi thought seriously. He had never thought about the situation that the paper could not be published.
Although he has not published a high-end physics paper, Zhao Yi is sure that it has reached the publication standards of top magazines based on the mathematical calculation content in the paper.
If "Classical and Quantum Gravity" is rejected, he will simply submit it to a top mathematics magazine. With his reputation and the mathematical content of the paper, it will definitely be published.
After Zhao Yi left, several professors in the office also started discussing it.
"Zhao Yi's research, what should I say? The idea is good."
"I can't find the problem anyway."
"His theory is very novel, but it is too difficult to prove, almost impossible! In addition, I always feel that there is something wrong with it."
"That's not all."
Zhou Li smiled and said, "Don't forget, mathematics is Zhao Yi's specialty. There must be a lot of mathematics in his research."
"yes!"
"There can't be just a physical explanation."
"I see!"
"Professor Zhou still sees clearly!"
Before seeing all the papers, discussing the research itself is meaningless. It is like buying a lottery ticket. There is a huge difference between "may win" and "definitely win".
To put it bluntly, their discussion was to study the 'possibility of winning the lottery', but maybe the other party has already won the lottery, so the possibility and probability have no meaning.
…
UC Berkeley.
The Berkeley Cosmology Center has just begun construction.
The Center for Cosmology was first proposed by George Smoot, the famous astronomy professor at Berkeley, a new Nobel Prize winner in physics, and has received support from the school and even the world's astronomical research organizations.
George Smoot is the head of the Cosmology Center, and he has to pay attention to all aspects of affairs.
For a while, the Cosmology Center was busy connecting data with the cooperating astronomical bases. The work of organizing the data collection room was enough to give people a headache. Smoot and his people were busy for a week.
At eleven o'clock in the evening, Smoot put down the work at hand and felt a little more relaxed.
Now is the break time.
Smoot did not go to sleep directly, but returned to the office on the third floor. He stood in front of the floor-to-ceiling window and looked out at the scenery. The three-story C-shaped building, the large signal receiver installed on the top, and the dim lights at the bottom of the roadside. Below, it reflects the hazyness of the river on the ground. You can imagine that it must be a beautiful picture during the day.
This is the Cosmology Center, where future work will take place and the result of his work.
Smoot felt very satisfied and didn't feel tired from work. He sat down in front of the computer again and was ready to continue working.
At this time, Smoot suddenly thought that he should check the email. He had not read the email for a week.
Open your mailbox!
There are ninety-nine new emails in the mailbox, most of which are sent by students, and some are from physicists. Most of them are consulting on physics issues, or related to Berkeley University courses, admission applications and other matters.
Smoot looked at it casually and deleted the emails that did not require attention. If there were emails that needed attention and the content was relatively simple, he sent them to his assistants or colleagues.
As a Nobel Prize winner, he is very busy at work and it is impossible to reply to everyone.
Just leave these simple questions to an assistant or someone else for help.
"Contribution to "Classical and Quantum Gravity"?"
Smoot opened an email, checked it and became interested. He is a review consultant for "Classical and Quantum Gravity", but generally if it does not involve very advanced manuscripts, it will not be forwarded to him for responsibility. On average, I won’t receive a single manuscript for a month, and sometimes even for several months in a row, I won’t receive any manuscripts. It’s very interesting to receive a forwarded manuscript.
"Microcosm: Boundary Theory of Particles?"
Smoot read the title lightly and felt that the author of the manuscript was really thoughtful. The title of the paper was about describing the energy of particles.
This is not an area that ordinary physicists dare to venture into.
Normally, those who can get involved in this level of content are top figures in the theoretical physics world.
Just like him, George Smoot, the new Nobel Prize winner.
Smoot smiled smugly, and immediately clicked on the author's information. After a brief check, he was more interested in the author's name than the content of the paper, "Zhao Yi?"
"Is it Zhao Yi, the young genius in China? The discoverer of new particles?"
"And Goldbach's conjecture?"
Smoot looked at the information and confirmed his judgment, and suddenly felt something strange.
Zhao Yi is indeed recognized as having made certain achievements in quantum physics research because he invented a new method to detect anomalies in particle collisions and used this to discover new particles suspected of being the Higgs particle.
but……
Almost no one in the world's physics community recognizes Zhao Yi's physics research level because he uses computer methods, but his computer skills are widely recognized.
In addition, Zhao Yi has no other achievements in physics.
"Why did you suddenly submit a study like this?" Smoot was a little confused and simply started reading the paper.
Just like Perlmutter, he couldn't stop at this sight.
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