Rule department scholar
Page 418
He sat on the chair sternly with his arms folded, his expression cold and serious.
If it were a handsome young man with this movement and expression, he would definitely be called a "cold male god". Unfortunately, Glashow only has an old face. I couldn't help complaining in my heart, "A typical stubborn old man."
soon.
The cameras all point to the stage.
Zhao Yi thanked the guests who came and talked about the arrangement of the academic report, "My report will be divided into morning and afternoon, and the morning will take up about three hours, mainly explaining the mathematical structure of particle energy and demonstrating the supersymmetry problem. explanation and analysis, and will set aside some time for questions.”
"The report in the afternoon is mainly to explain in detail the difficult points in the argument."
"Then now..."
Zhao Yi opened the PPT on the podium computer and began to enter the first part, "First of all, the part of the mathematical structure of particle energy, that is, the boundary theory of particles. In my boundary theory, the mathematical part of energy constituting particles is the core and the argument. basis of the supersymmetric problem."
"The 'energy structure' here, and the outside world, that is, other tiny particles or the space they live in, may undergo energy reactions, affecting the part of the particle state..."
"The energy structure, or the energy mathematics of particles, must first analyze the characteristics of particles. In my report on the boundary theory of particles, I explained that the energy structure allows the particles themselves to keep moving..."
He developed the mathematics of the energy of particles.
Everyone in the venue was listening carefully. Zhao Yi’s demonstration of supersymmetry was based on the boundary theory of particles. First, he explained the energy mathematics of particles in the boundary theory, which laid the groundwork for the next demonstration. If you don't have a deep understanding of the energy mathematics of particles, it will be difficult to understand the content of the following argument.
Zhao Yi spent about 45 minutes explaining the mathematical problems of the energy of particles. He just made a general overview and marked out the key points for the convenience of use in the subsequent demonstration process.
The explanation of this stage is completed, leaving a short break for the guests.
Scholars in the first few rows also discussed.
George Smoot couldn't help saying with admiration, "It's shocking every time I see it, the perfect mathematical structure, and the logic that forms a closed loop by itself."
"It's a perfect theory."
George Smoot turned to Minying Yichuan and said seriously, "Its perfection lies in the fact that there is nothing that conflicts with it in the existing physical system."
"It's brand new, but it fits perfectly into the system, and it even feels like it will complement many theories, such as string theory."
Yichuan Minying nodded and said, "Yes, it's really perfect."
"It's just cheating."
Sheldon Glashaw snorted disdainfully, "I admit that its mathematical structure is indeed perfect, and I agree with what you said, but there is nothing new in physics that will not conflict with any existing theories. Because theoretical physics is not all true, and even most of it is fictional and false, and it will be proven wrong in the future.”
"He just found the balance of all the theories, the mathematical balance of theoretical physics."
Yichuan Minying looked over, and he felt that what Glashow said was also reasonable.
George Smoot didn't look back, "Don't pay attention to him, it's just sophistry."
He thought for a while and added, "According to his logic, both Einstein and Newton were wrong. They just found a balance point that does not conflict with the discovered laws of physics, or in other words, the laws of nature and the universe."
"Push!"
This time Yichuan Minying couldn't hold back, but couldn't help but burst out laughing.
Glashow gave him a hard look, then glanced at George Smoot, and snorted dissatisfiedly.
Yichuan Minying noticed Glashow's expression, and immediately frowned. At first, he thought that George Smalls was joking when he said that Glashow looked down on RB people. It was all true, and Glashow hadn't even the basic respect for himself.
Glashow had conflicts with George Smalls, but every time he glared at him viciously?
Yichuan Minying looked at Glashaw unfriendly, his expression became very dissatisfied, Glashaw noticed and stared back immediately, the two stared at each other for a long time, and finally was interrupted by Zhao Yi's words on stage.
"Everyone, let's continue..."
"The following part is an overview of the demonstration of supersymmetry. I will use the energy structure of particles as the basis to construct the boundaries of fermions and bosons..."
Everyone became extremely serious.
In "The Boundary Theory of Particles", Zhao Yi constructed the boundary of photons, which can be said to be an "example of the application of boundary theory", but the difficulty of completing the boundary framework of fermions and bosons is completely different.
First of all, it is necessary to clarify a concept, what is a fermion and what is a boson?
According to the distinction of existing particle systems, in a system composed of identical particles, if only one particle is allowed to be accommodated in a quantum state of the system (that is, a microscopic state determined by a set of quantum numbers), this particle is called Fei Yonago.
In other words, particles with a semi-odd spin (1/2, 3/2...) are collectively called fermions, which obey Fermi-Dirac statistics, and fermions satisfy the Pauli exclusion principle, that is, there cannot be more than two fermions appear in the same quantum state.
轻子,核子和超子的自旋都是1/2,因而都是费米子。自旋为3/2,5/2,7/2等的共振粒子也是费米子。
Neutrons and protons are composed of three kinds of quarks, with a spin of 1/2 and an odd number of nucleons.Because neutrons and protons are all fermions, the spin of an atomic nucleus composed of an odd number of nucleons is a half-integer.
Bosons are particles whose spin quantum numbers are integers (0, 1, ...) following Bose-Einstein statistics, such as mesons, deuterons, helium-4 and other composite particles, as well as Higgs particles, photons, Elemental particles such as gluons, and Z.
From the above definitions, it can be found that all particles are distinguished according to the spin quantum number, and there are only two kinds: fermions and bosons.
Electrons are typical of fermions, while photons are typical of bosons.
The photon that Zhao Yi demonstrated at the beginning was just a typical example of bosons. Now he wants to demonstrate bosons, which is equivalent to a leap from typical to whole, and the same is true for the demonstration of fermions.
Using mathematics to construct a typical difficulty and constructing an overall difficulty is definitely not on the same level.
This is also the key to the demonstration of the supersymmetry problem.
As long as the energy composition of fermions and bosons is constructed, the follow-up is just a "symmetric analysis" from the perspective of mathematics and physics on the basis of the structure.
……
The energy framework of fermions and bosons is the core of the demonstration of the supersymmetry problem.
Zhao Yi spent an hour and a half analyzing the energy structures of fermions and Bose, and filling in the mathematical theoretical values of the initial energy points one by one.
Later, in the form of mathematical equations and functions, the edge energy structure will be summarized.
Then, compare.
The argument is almost here.
Through the comparison of mathematical arguments, we can already see the shadow of the symmetry of the two theories. As long as we conduct detailed analysis, we can draw conclusions.
Many people are ready to applaud.
However, Zhao Yi's argument is not over. He still has a core content that he did not talk about, that is, the calculation and analysis of the overall mathematical structure to prove that fermions and bosons already have symmetry at the beginning of their formation.
This part can be understood with simple mathematical examples.
For example, take the number 0 as the symmetrical point.
-7、-4、-2、1、2、3、5以及-17、3、4、5、7,两组数据的对称性在哪里?
If you add two sets of numbers together, it is easy to draw a conclusion: the sum of the first set of numbers is -2, and the sum of the latter set of numbers is 2.
The mathematical framework for the initial formation of particles is far more complex.
After Zhao Yi completed the energy structure of fermions and bosons, he began to demonstrate the overall mathematical structure. Many people didn't know what he was going to say, because this part of the content was at the end of the paper, and there seemed to be some "incidental content" Meaning, many people thought it was a promotion made in this way.
Many people opened their mouths in surprise when they discovered that Zhao Yi analyzed the symmetry of the initial state of the particle as a whole with the well-structured energy system.
"Let's see..."
"The quantum spin of fermions is a semi-odd number, and tends to show the shape of γ(t, n) function. The initial curve is..."
"The boson is exactly the opposite, the energy distribution curve presents...the initial curve is..."
"In the customized interval, the energy is in point units and presents a symmetrical combination form. I call it the positive and negative energy form. The pair values of several functions are combined..."
"When they are initially formed, because the comprehensive energy is different, a fixed value of spin difference will be formed..."
"so……"
Zhao Yi continued to narrate.
There was silence in the venue.
Now people who can understand understand what Zhao Yi is talking about. Even if they don't understand, they can still think along the lines of thought. Many people's expressions have become very surprised. It seems that this is the first time they know about the argument of supersymmetry. Also did this step.
Same goes for Sheldon Glashow.
From the beginning of the academic report to just now, he had put on a cold look of disdain and no strangers, just looking at the stage with a mockery, but now he has become a lot more serious, and his brows are also wrinkled.
If we only use the mathematics of the particle energy structure to demonstrate the supersymmetry problem, we can say that we use our own set of logic to "fictitiously" set up the mathematical logic of the supersymmetry problem, and the analysis of the overall structure can be added. , which is equivalent to saying that the mathematical framework of the architecture has formed a closed loop logically, and there is no way to refute it if people want to refute it.
You say that the supersymmetry argument of the energy theory framework is fictional?
But how could it be such a coincidence that while assuming symmetry, let the overall analysis show symmetry?
It's like taking out a lot of products, and someone comes to mark the price of each product. No one knows whether his price is correct, but it is very in line with the positioning of the public, and it is not good if it is completely accurate.
In the end, the prices of all the commodities were added together, and I was surprised to find that the resulting figure was the same as the total price of all commodities purchased.
Surprised or not?
Coincidence or not?
Who dares to say that others are marking prices indiscriminately?
Sheldon Glashow's mind was a little messed up for a while, he couldn't accept a brand-new, fictitious 'fraud' theory, but the logic of the 'fraud' theory formed a closed loop that could not be refuted, and all the points he thought of before were closed Stopped, all the preparations became useless.
His brows furrowed tightly.
"impossible!"
"This kind of fraud theory can't be so perfect! Impossible, there must be something wrong!"
"Must have!"
Sheldon Glashow listened more seriously. He was very sure of his judgment, thinking that there must be something wrong that he hadn't thought of.
Chapter 377 Mass-energy structure theory
Meeting place.
Sheldon Glashow's expression was very serious, he stared at the stage, his brows were tightly wrinkled, and a thought kept turning in his mind, "Impossible, it's a coincidence, it also means perfect, logic Closed the loop."
"The mathematical framework he listed is completely fine, it is perfect to the extreme, like a work of art made with mathematics..."
"How can there be such a perfect theory in the world, shouldn't it? The overall analysis and point argument, the results are the same..."
"but……"
"What if you jump out of the frame?"
Sheldon Glashow thought about it, his eyes suddenly lit up, he took a deep breath, a confident and disdainful smile appeared on his face again, and his arms were hugged again.
On the stage.
Zhao Yi’s speech came to the final stage. Following the listing of the comparison functions on both sides, he made the last step of analysis. He stopped and returned to the podium, and concluded, “We can see the symmetry of the two columns, Their energy determines the direction of the evolution particle..."
"Here, the argument is over."
"thank you all!"
After Zhao Yi finished the last sentence briefly, he quickly picked up the water bottle next to him and took a big gulp. At the same time, there was a roaring applause in the venue. The ones are in line.
"What a wonderful report! It's amazing!"
"Perfect math!"
"I just heard about it before. Before I came to the report meeting, I looked at the boundary theory. I didn't study it too deeply. Now I know that this theory is really worthy of in-depth study."
"Not only the supersymmetry problem, maybe other problems can also be solved."
"It's refreshing!"
"I feel that I have learned about microscopic particles from another angle..."
front row.
George Smoot stood up, moved his hands and feet, and said to Edward Witten, Yang Zhenning, Yi Chuan Minying and others, "When I first saw the particle boundary theory, I knew it was a theory with great potential. , are all brand new, and analyze particles by energy composition. Now I believe that it is true, not just a theory, but a microcosmic real existence, otherwise such a coincidence would not be possible."
He was referring to the overall analysis combined with energy components.
Yang Zhenning nodded, "Yes!"
“Very classic!”
Yichuan Minying said, "I read the paper in the laboratory, and I was immediately attracted by the content. The new mathematical explanation of particles is very difficult."
George Smoot continued, "I have decided that when I go back, I will let the Cosmology Center add the boundary theory research of particles!"
He is the director of the Cosmology Center at the University of California, Berkeley, and he can completely decide what research the Cosmology Center will do.
Edward Witten said with a smile, "Princeton has set up a research group to study the boundary theory of particles, but I think they will pay more attention to it after the report is released."
He said with a wry smile, "However, in the future, maybe young people who like string theory will also like Zhao Yi's theory, and they may even like Zhao Yi's theory more."
While several people were talking, a cold snort came from the side.
Sheldon Glashow stood up full of disdain, and asked Zhao Yi on the podium, "I think there should be a question time next?"
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