Genius of the Rules-Style System

venue.

All the audience were listening carefully to the explanations on stage and were following the train of thought to understand, because the explanations were very detailed and mainly focused on logical relationships. Even if the mathematical content could no longer keep up, they could still understand the logical derivation. and interrelated.

Everyone was very serious, making the whole venue seem very quiet.

Zhao Yi stood in front of the lectern again and bowed slightly to express his gratitude to everyone. Many people did not react for a while.

"it's over?"

"Yes, it seems to be over!"

"The final comparison has shown that energy arrangement can determine the mass carried!"

"We also derived the rules for the decrease of particle energy order..."

The last point was the main reason that made the audience think.

The particle energy sorting framework set by Zhao Yi sets the rules of energy arrangement into several different intervals. It can be understood that different particles have boundary energy arrangements in different intervals.

Through the shaping and derivation of mathematical framework, he came to a result--

When the particles are actually formed, the boundary energy arrangement can only decrease but not increase. To put it bluntly, high-order particles can be transformed into low-order particles, but low-order particles cannot be transformed upward.

Although no specific particle is mentioned in the derivation and demonstration process, low-order particles can easily be thought of as photons and neutrinos. Electron-positron collision experiments can produce a large number of photons and neutrinos. There is not much research on microns, but photons are definitely low-order particles. They cannot be converted into other particles, and they will quickly 'annihilate' when encountering obstacles, thereby forming new photons, or simply dissipating. .

When theory can be connected to reality, you can imagine how shocking it can be.

Everyone present here are top mathematicians and physicists. From the discussion just now, they can think of a problem: if the research continues, it will be more closely connected with real time.

Perhaps one day, experiments can be conducted to prove whether the theory is correct.

Many people are looking forward to it.

Some physicists in the audience were thinking with interest, "Maybe I should study this energy theory and continue to explore it. One day I can design experiments and confirm whether it is correct."

The audience was quiet for a few seconds, and then applause started from the back row. The applause slowly resounded throughout the entire venue. Several people stood up and applauded vigorously. Everyone was very surprised and complicated.

The argument was successful!

Although it is not 100% sure that it is completely correct, at least there is no problem with the logic. In terms of calculation and derivation, it can be studied slowly in the future, but when the logic is so rigorous, there should be no problem.

Amid warm applause, Zhao Yi walked off the stage with a smile on his face. He felt very tired, but he still shook hands with everyone in the audience.

Edward Witten was the first to come over and shake hands. He couldn't help but shake his head and exclaimed, "It's amazing. Your argument really connects quality with energy. I don't even know how to express my feelings now."

Yang Zhenning smiled and nodded, and patted Zhao Yi on the shoulder, as if congratulating him on his success.

Before Edward Witten finished speaking, he continued to chase with a grimace, "Now I feel the pressure of work. We are working together on research, but your research seems to be completed, and mine has just begun. , it’s not even easy to find an accurate direction.”

"It's all thanks to you!"

Zhao Yi smiled and said, "Quality is the product of multi-dimensional space and is your inspiration."

"Does your research explain this problem?" Edward Witten asked a puzzled question.

Zhao Yi shrugged and said, "I just said that it gave me a reminder and gave me ideas, but if you want to prove the relationship between mass and multi-dimensional space, you still need to work harder!"

He said it very sincerely.

The research on the boundaries of multi-dimensional space is a project that the two of them work on together, and the division of labor is very clear.

Zhao Yi is responsible for 'external research', which is to use the boundary theory of particles to construct the energy model of particles and conduct demonstrations in conjunction with the Higgs theory; Edward is responsible for the demonstration of multi-dimensional space.

If mass is a product of multi-dimensional space, he is definitely needed to demonstrate the state of mind of mass in multi-dimensional space, or the form in which other properties are thrown into the three-dimensional universe.

etc.

Edward Witten smiled and said, "I hope we can succeed."

Zhao Yizheng shakes hands with George Smoot.

Smoot turned his head and said sarcastically, "It's not that you can succeed, it's Zhao Yi who has already succeeded. In a few years, he may become more successful, and the project you jointly do will become his project." "

"If you are willing to produce results, your name may be added to some studies."

Edward Witten grinned and said, "You really don't hold back your words!"

"I'm just telling the truth."

Smoot said nonchalantly, "Because Zhao Yi has succeeded, at least he has me as a fan." He looked to the left and right as he spoke, and said loudly, "I declare that from now on, the Cosmology Center will officially Introducing the boundary theory of particles, my colleagues and I will engage in relevant research and will also persuade Berkeley to introduce this theory."

The people around him applauded.

"Thank you, thank you very much!" Zhao Yi expressed his sincere gratitude. The University of California, Berkeley, is one of the top universities in the world. It has long been among the top ten in the academic rankings of world universities. Berkeley has publicly recognized and introduced the boundary theory of particles. , which is very helpful for the promotion and development of boundary theory.

Next is Masukawa Minying.

Masukawa Minying used the etiquette of RB people. He bent down when shaking hands with Zhao Yi, showing an attitude of respect and recognition.

Zhao Yi felt a little uncomfortable, even embarrassed.

Masukawa Toshihide is a 60-year-old elder and a Nobel Prize winner in physics. He has made great achievements in physics. Traditionally, he should be the one to show respect.

With a gentle smile on his face, Masukawa Minying said, "I am very interested in the discussion of mass just now. If I continue to study it in depth, it should be related to gravity, right? There is also electromagnetic force."

Zhao Yi said calmly, "That's still a bit far away. I haven't started research on electrons because it involves electromagnetic force. Electromagnetic force is too complicated. And gravity is just a theory. I hope to be able to demonstrate gravity in the next step."

The conversation between the two made others react.

The first few rows are all top mathematicians and physicists. Even if they have not won the Fields or Nobel Prize, we cannot question their level. Maybe they are just unlucky and their research cannot be verified. Or there is no achievement that is helpful to the development of mathematics and physics.

That's all.

In fact, awards are just a halo. For example, for football players, some stars have nationality restrictions and are unlucky. Even if they have a career of more than ten or twenty years, they can never win the Champions League or World Cup, but it does not mean that they have won it. Stars who win championships must be at a higher level than those who don’t.

The same goes for academia.

Hawking never won a Nobel Prize, but his name is almost universally known.

Einstein won the Nobel Prize in Physics because "few people know" the analysis of the photoelectric effect, not the most famous theory of relativity.

Therefore, there is not much difference in level between the top mathematicians and physicists in the first two and three rows. When they heard Masukawa Toshihide's words and connected them with the "mass-energy structure theory" argument just now, they immediately understood the meaning.

If this research continues, it will definitely contact the Four Powers, and there is no other way to go.

When mass is involved, gravity must be involved, and electrons are a type of particle. The energy analysis of electrons must be related to electromagnetic force, otherwise there is no way to achieve it.

If the complete analysis of mass and electrons is completed, it will be equivalent to explaining the generation principles of gravity and electromagnetic force, which will definitely become a major progress in physics, and can even be described as a 'physical revolution'.

why?

Whether it is Newton, Einstein, or other famous physicists, their research results can ultimately be described as ‘summary rules’.

Whether it is the laws of nature or the laws of the operation of galaxies in the universe, they are just a summary of existing laws. Then people can use the summarized rules to understand, deduce, and explain other matters.

What Zhao Yi is doing now is to 'analyze gravity' and 'analyze electromagnetic force', which is equivalent to going a step further. He is summarizing the laws of the existence of microscopic particles, and at the same time, he is also analyzing the laws to the next level.

Why does gravity occur?

Why does electromagnetic force appear?

If research can really reach this point, it will definitely promote "revolutionary" progress in physics.

Many people are excited and looking forward to it. Many people say that there has been no significant progress in physics research for decades, which makes sense, because the current scientific and technological development relies on the support of physical theories from a hundred years ago. Modern physics development is mostly focused on very advanced research on the universe and particles, which can only deepen the understanding of the universe and the microscopic world, but cannot be applied to life at all.

For example, black holes.

Even if the black hole theory is true, what significance will it have for the development of science and technology in the next few decades?

does not exist.

The modern development of nuclear energy, electric energy, information technology, etc. do not require the support of physical research in recent decades, and the popularization of more cutting-edge quantum computers is still a dream for the time being.

Many physicists believe that physics must achieve a "revolutionary" progress in order to create more, more advanced, and more imaginative things.

For example, how to make a flying car?

Magnetic levitation is an optional technology, but there is no doubt that it will be very expensive, very unstable to manufacture, and prone to various problems.

If there is a brand-new technology that can produce stable flying cars at low cost, it will change human transportation into a new look.

So, where does the technology come from?

The first thing to do is theoretical support, and theoretical support requires huge progress in physics.

The theoretical research conducted by Zhao Yi may break through the shackles of the development of physics and become the driving force for the "revolutionary" development of physics.

People around him couldn't help but become excited when they thought about the research prospects. Many people decided to study the boundary theory of particles after returning home.

The development prospects of this theory are too broad!

…

Sheldon Glashow was not seen again that day.

When Zhao Yi asked about it inadvertently, George Smoot said funnyly, "He left as early as halfway through the argument."

"He can't stay because he is ashamed. It is said that there is a live broadcast? Probably everyone will know that his doubts remind you and let you add quality to the theory."

"But no one is stupid enough to think that he is deliberately reminding you. Of course he is questioning and denying your argument. He does not believe in string theory, and he certainly does not believe in your theory. The whole world knows that he He’s an old fogy.”

"If you succeed, he can only leave."

Zhao Yi found it a bit funny when he heard it, but he was not disgusted with Glashow because the other party did bring him inspiration.

Without Glashow's words, it might have taken him a long time to add mass to his theory.

Now the boundary theory of particles can no longer just be called 'energy theory'. To be precise, it is 'microscopic mass-energy theory'. How to call it specifically is still a bit of a headache. Let's wait for the world to give the answer.

at the same time.

Capital TV's live broadcast of the afternoon report brought considerable influence.

In fact, the ratings of the live broadcast are not high, and the jump range is relatively large. Most viewers know the news, turn on the TV channel, and stop listening after a short time, or switch to other channels.

Because... I don’t understand!

It is impossible for most people to understand the content of the report, and they will feel dizzy after understanding its complicated logic. However, many people are still concerned about the results, and they simply go online to ask.

"What exactly is Zhao Yi talking about? Can anyone help explain it?"

"Did Zhao Yi's argument succeed? I switched to that channel and couldn't understand it at all!"

"I listened to Zhao Yi's explanation, and I really enjoyed it. I learned many martial arts such as the Eighteen Palms for Subduing the Dragon, the Nine Yin Manual, etc..."

"From now on, I have evolved into Superman! Mortals, tremble!"

"..."

soon.

The live show is over.

There are many related reports and analysis comments on the Internet, and some very professional people have come to answer, "In the morning, Zhao Yi used energy theory to analyze the supersymmetry problem. In the live TV broadcast just now, he deduced the particle energy structure and quality relationship.”

"In the end, two conclusions were drawn. One is that the energy structure of particles determines the mass that can be carried; the other is that the energy structure of particles is divided into levels, and can only be transformed from high levels to low levels."

This kind of analysis is quite professional, but most people still don’t understand it.

Later, someone simply said directly, "The conclusion of Zhao Yi's argument is that light cannot be turned into carbon, but carbon can produce light." Everyone understood this explanation.

So that’s it!

To some extent, the second conclusion can also be understood in this way.

When the media analysis reports increased, many professionals came out to provide answers. At the same time, top mathematicians and physicists who participated in the reports were interviewed.

As a reviewer for the demonstration of supersymmetry issues, Qiu Chengwen also participated in the academic lecture, but he was very low-key sitting in the back row. After he returned to Shuimu University, he accepted an interview about the lecture.

What the reporter wants to know is how influential Zhao Yi's particle mathematics results are.

Qiu Chengwen's evaluation is very high, "If you talk about professional things, it is probably difficult for most people to understand."

"Let me compare it with a famous theory in physics!"

"For example, string theory."

"String theory has been created for more than fifty years, but it really developed and was recognized by many scholars in the 1980s and 1990s, because of the two revolutions of string theory, namely Harvard's Mathematical Physics According to Professor Edward Witten’s two arguments, the interval between the two revolutions was about ten years.”

"Today Zhao Yi made a demonstration on the supersymmetry problem, and in the afternoon he made a temporary demonstration on the introduction of mass."

"In two demonstrations, in the morning and in the afternoon, he completed the work of Schwartz, Green and Mr. Edward Witten in one go, which lasted for more than ten or twenty years, making the boundary theory of particles a leapfrog Completed two revolutions!"

"There are not many scholars in the world who specialize in particle boundary theory research, but there is no doubt that from today on, this theory will be recognized by the world, and its research potential and prospects have surpassed string theory!"

"It will become the first branch of theoretical physics!"

“This is the influence of Zhao Yi’s reports and research!”

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