Rule department scholar

He really didn't think about it.

After hearing this, Qiu Chengwen smiled wryly, "Put this kind of thing at the end...it's you!" After other people have made great achievements, they can't wait to find a big stage to show them, and they can't wait to let the world recognize that their achievements are the best .

What about Zhao Yi?

Obviously knowing that the research results are very influential, but in the end, I didn't even think about where to make the report.

"I guess it's Yanhua University again?" Qiu Chengwen thought to himself.

In fact, he hoped that Zhao Yi would come to Shuimu University to give a report, but considering that Zhao Yi published all his papers in the "Journal of Mathematical Physics" instead of the top international journals of mathematics and physics, he probably would not consider other universities to give academic reports.

Qiu Chengwen simply shook his head, and did not continue the topic of the academic report, but asked about the problems encountered in the research paper. He had already obtained Zhao Yi's "Supersymmetry Problem" paper, and he had no problem with the overall understanding. I have to deliberate on some details, but there are two or three places where I always feel that my understanding is not deep enough, and I feel that something is missing, so I want Zhao Yi to explain it.

Qiu Chengwen's questions can be said to be the fewest, but the content of the questions is very in-depth, and one can tell that there is a deep research on the thesis.

Zhao Yi explained seriously.

Qiu Chengwen felt a sense of enlightenment when he heard it, and added, "It seems that I still need to study your particle energy theory."

He knows his problem.

The analysis of 'supersymmetry' is based on the theory of particle boundaries, if you don't thoroughly study the theory of particle boundaries, if you directly understand the analysis of 'supersymmetry', you will definitely encounter some things you don't understand.

"That's the foundation." Zhao Yi said with a smile, "We can discuss it together. Regarding the question you mentioned just now, my idea is..."

The two had a long discussion.

The mathematical logic in the "Supersymmetry Analysis" paper is not that complicated, and the calculation part does not take up much. The most difficult thing to understand is the mathematical structure of the energy system.

The difficulty of this part lies in 'imagination', or spatial thinking ability.

In mathematics, spatial thinking ability is really important, especially when extended to geometry, spatial thinking ability determines the upper limit of understanding.

Spatial thinking ability, the simplest one can be a particle, for example, ask a dice has six sides, engrave 2, 3, 4, 5 clockwise, the upper and lower are 1 and 6 respectively, ask what is the number on the opposite side of 3 ?

This question is very simple, think about it and you will know that the answer is 5.

If the difficulty is increased, for example, spatial geometry topics in high school require much higher spatial thinking ability. For some topics, you only need to read it once to understand, and do it only by imagination without writing, which requires more spatial thinking ability.

Then, it's a little more difficult.

Space topology.

The content of topology is very complicated, and the spatial thinking ability is not enough, so it is very difficult to understand the basics.

Zhao Yi's "supersymmetry analysis" is based on the energy mathematical system, which requires strong spatial thinking ability, and some parts also include the thinking of energy array sorting and space conversion. The requirements are even higher.

This is the threshold.

Insufficient spatial thinking ability, some mathematical structure content will be difficult to understand.

Of course.

A mathematician of Qiu Chengwen's level must have enough spatial thinking ability. The reason why some details are not clear is simply because he is not familiar with the particle boundary theory, and he has not thought of the key points of the problem. Can't convert it.

Zhao Yi explained the key points, and Qiu Chengwen immediately understood.

……

When many domestic scholars concentrated on studying Zhao Yi's "Supersymmetry Analysis" paper, the influence of the paper quickly spread to foreign countries.

Several European and American academic media reported on the title of Zhao Yi's paper.

"Zhao Yi released a heavyweight mathematical physics achievement: supersymmetry analysis!"

"The Chinese Journal of Mathematical Physics published Zhao Yi's latest theoretical physics research results, which is a supersymmetry issue that the physics community is very concerned about."

"Using the latest particle boundary theory to explain and analyze the problem of supersymmetry, does it mean that the problem of supersymmetry has been cracked?"

"..."

At the same time, foreign countries are similar to those in China. Many mathematicians and physicists have devoted themselves to the research of Zhao Yi's latest paper.

The appeal of this paper is much higher than that of the 'Boundary Theory of Particles', because the 'Boundary Theory of Particles' is a brand-new theory, a brand-new theory in the physics world, and it is not easy for people to accept it.

If it weren't for Zhao Yi's great influence, not many people would know about the "Particle Boundary Theory".

The new paper involves 'supersymmetry' which is different.

"Supersymmetry" is the cornerstone and foundation of theoretical physics, but the theoretical symmetry between particles has never been discovered by experiments.

The physics community hopes that there will be a kind of symmetry about particles, which cannot be supported by the theory found by experiments, and also needs to make an acceptable explanation for the so-called "symmetry" in the supersymmetry problem.

Never before.

The theory of supersymmetry is perfect, and it is difficult to add new content to it when researching from the perspective of particles.

Now Zhao Yi uses his personal particle boundary theory, that is, the "particle energy theory", to explain and analyze the problem of supersymmetry, which is worth studying.

When many scholars devote themselves to research, they only feel that the paper is obscure and difficult to understand. It is really not easy to understand. They quickly discovered the reason--

This paper is based on the 'energy theory', that is, the 'particle boundary theory'. I have never studied the 'particle boundary theory', so it is naturally very difficult to directly understand the mathematical content of the paper.

Many people immediately went to study the boundary theory of particles.

Compared with supersymmetry analysis, the mathematics in particle boundary theory is not very difficult for top mathematicians.

The boundary theory of particles, as a whole, is like a formula framework and a rule framework.

As long as you understand the formula framework and rule framework, and then understand the new supersymmetry analysis paper, it will become much easier.

soon.

Some heavyweight scholars stood up and affirmed Zhao Yi's achievements.

It was Edward Witten.

Edward Witten and Zhao Yi collaborated on multi-dimensional space boundary research, and have a deep understanding of particle boundary theory. It is not easy but not difficult to understand "supersymmetry analysis" based on his foundation and level.

The paper that Edward Witten got at the first time, because it was published, skipped some parts of the paper, but he still understood it clearly, and publicly declared, "This is an exciting research."

"The problem of supersymmetry has not stopped, but there has been no progress. It cannot be observed experimentally, and theoretical research has stalled, but it is very important."

"Zhao Yi demonstrated the problem of supersymmetry with the particle boundary theory, and gave a new perspective to understand the method of microscopic particles."

"It's amazing, really amazing."

"In fact, before the paper was published, he told me that he had completed the analysis of supersymmetry. I was very excited at the time, but after reading this paper, I found that the excitement at that time was far from enough!"

In the end, Edward Witten said, "I believe that the boundary theory of particles will be recognized by more people in the future, and more progress will be made in related research."

Edward Witten's personal opinions have a great influence, and his academic influence is enough to cover the Institute for Advanced Study in Princeton.

The Institute for Advanced Study in Princeton quickly realized that they did not comment on the supersymmetry argument, but announced their acceptance of the 'Boundary Theory of Particles'.

This announcement is significant.

It's like Harvard University's announcement of accepting string theory is tantamount to recognizing string theory, and then it will open related courses in the university, and then accept and hire several young scholars of string theory.

Now the particle boundary theory is recognized by the Institute for Advanced Study in Princeton, which is equivalent to Princeton University’s announcement, “From now on, we will accept the particle boundary theory, and in the future we will decide to hire scholars related to the particle boundary theory, and we will also consider offering related courses in the university. "

This is the most direct recognition.

When the discussion abroad is raging, the domestic reaction is also very fast.

Although most scholars have not yet understood the paper on 'Supersymmetry Analysis', universities have already begun to express their opinions. Led by Shuimu University and Capital University, more than a dozen universities have announced their acceptance of the 'Boundary Theory of Particles'.

The previous "Particle Boundary Theory" belonged only to Zhao Yi's theory, and only Yanhua University announced its acceptance of this theory.

Other universities are on the sidelines, because there are no more scholars, and they mainly study the boundary theory of particles.

It is different now.

Based on the particle boundary theory, Zhao Yi made an analysis and demonstration of supersymmetry, which is equivalent to telling the world, "The particle boundary theory has broad research prospects."

In the future, more scholars will definitely participate in the research based on particle boundary theory.

A week has passed.

Many scholars at home and abroad have stood up and affirmed the analysis and research of 'supersymmetry'.

The announcement of the Institute for Advanced Study in Princeton is iconic, and Edward Witten has a great influence, but the Institute for Advanced Study in Princeton only affirmed the boundary theory of particles, and still has reservations about the analysis of "supersymmetry".

It is different now.

A large group of mathematicians and physicists gathered together to discuss the analysis of "supersymmetry". They found that the mathematical analysis in the paper was very classic, and brought a new argument from the perspective of energy composition, and they couldn't help being amazed.

When more mathematicians and physicists got the affirmation, the Institute for Advanced Study in Princeton made it public immediately, affirming Zhao Yi's 'supersymmetry' analysis.

This is a signal!

The Institute for Advanced Study in Princeton is very influential, and with their affirmation, it means that there is no problem in the analysis of 'supersymmetry'.

The international academic community suddenly boiled.

Supersymmetry can be directly understood as the symmetry problem of fermions and bosons, but its expansion has become the basis of theoretical physics. It has extraordinary charm and can solve many theoretical physics problems.

For example, the famous level problem in the standard model of particles, that is, why there is a difference of more than ten orders of magnitude between the electroweak unified energy scale and the grand unified or Planck energy scale?

For example, a large number of divergent results in ordinary quantum field theory can be eliminated by the contribution of supersymmetric partners in supersymmetric theory, so supersymmetric theory has very superior renormalization properties.

In addition, although there is no experimental evidence for supersymmetry theory, there is a "theoretical evidence" from the grand unified theory.

The above are just a few properties and applications of supersymmetry. In fact, since the development of theoretical physics, the concept of supersymmetry can be seen in almost all frontier fields of physics.

If the field of theoretical physics is described as "nature", then supersymmetry can be described as Newton's mechanics. Newton's mechanics is an explanation of the forces that occur in nature, or a summary of the laws of nature, which is also the most basic law , concept, the difference is that the research on supersymmetry has not made any progress. It is conceivable that one day, Newton’s mechanics is suddenly proved to be wrong, which will definitely cause a super earthquake in academics. The research of physics is supported by the foundation.

After Zhao Yi's 'supersymmetry' analysis theory was recognized, the journal "New Advances in Mathematics" gave a high evaluation, thinking that 'the research is an important step in the milestone significance of theoretical physics'.

Other academic media and magazines immediately commented, "This is very important. The analysis of supersymmetry from a new perspective also brings new research directions to theoretical physics..."

"There is a unique perspective, perfect mathematical logic, and groundbreaking research..."

It has been highly recognized internationally, and the domestic situation can be imagined.

The domestic media has made a lot of related reports, and the content also popularizes the importance of the "supersymmetric problem".

There is also a lot of discussion on the Internet.

Most people outside the academic circle don't know what the meaning of "supersymmetry" is. They just think it is a very powerful thing, but it doesn't affect the enthusiasm for gossip about the matter, because it is Zhao Yi who completed the result.

In recent years, major achievements in mathematics and physics seem to be inseparable from Zhao Yi's name.

Zhao Yi once again aroused heated public opinion.

3 Seventy chapters advertised on the news!

Yanhua University, Institute of Biomedicine.

central laboratory.

Zhao Yi and several researchers were discussing the characteristics of 2CV-Bing hydrogen molecules. They did a new virus anti-infection experiment and found that 2CV-Bing hydrogen molecules can also play a certain role in resisting conventional influenza viruses. But the effect is not too obvious.

In fact, it is also understandable.

The reason why 2CV-Bing hydrogen molecule has obvious anti-HIV infection effect is because there is nothing to compare with it. In the past, there were almost no substances that directly had an anti-infection effect on HIV. Started to develop drugs.

Regular flu viruses are different.

There are already many drugs against influenza virus on the market. Compared with them, it is difficult for 2CV-Bing hydrogen molecule to stand out.

"But it is still effective. The most important thing is that there are no side effects. Even if more 2CV-Bing hydrogen molecules are injected, there will be no specific reaction."

Dai Tianqing concluded, "To study the permeable 2CV-Bing hydrogen molecule, we still need to study the specific molecular mechanism of it and the HIV spike protein."

This aspect has not been thoroughly studied.

2CV-Bing hydrogen molecules want to combine with the spikes of HIV, but only know that they react with certain substances on the spikes. Specifically, whether it is combined, or the ablation between proteins, or "sticking" to the spikes, is still a problem. uncertain things.

Zhao Yi used "The Law of Cause and Effect" to get the result.

The 2CV-Bing hydrogen molecule is combined with the protein of the HIV spike and transformed into a more stable protein structure, which makes the HIV spike unable to function normally.

This reaction is quite coincidental.

The HIV spike is like encountering a natural enemy. It will react when it encounters 2CV-Bing hydrogen molecules, which will seriously weaken the efficacy of the spike.

"Perhaps because of this, the 2CV-Bing hydrogen molecule is very effective against other viruses." Unless the spike of a certain virus has the same protein as HIV, but with a similar protein structure, the effect will be very small, or even is completely ineffective.

When the discussion about the 2CV-Bing hydrogen molecule ended, several people talked about other things, and others congratulated Zhao Yi for completing the analysis of the 'supersymmetry problem'.

Dai Tianqing said, "I read those reports, it's really good, Zhao Yi, it's another top achievement, and it's still a physics research."

"Is this considered mathematics?" Li Ming held different opinions.

"Physics! Supersymmetry must be physics? It is the effect of particle generation. I study medicine and understand physics!" Dai Tianqing said very definitely.

"But, I remember that theoretical physics is mathematics!" Then the two began to argue whether the supersymmetry problem was mathematics or physics.