Genius of the Rules-Style System

Yanhua University, Institute of Biomedical Sciences.

Central laboratory.

Zhao Yi and several researchers discussed the characteristics of 2CV-Binghydrogen molecules. They conducted new virus anti-infection experiments and found that 2CV-Binghydrogen molecules can also play a certain role in resisting conventional influenza viruses. However, the effect is not too obvious.

In fact, it is understandable.

The reason why 2CV-Binhydrogen molecule has an obvious anti-HIV infection effect is that there is nothing to compare it with. In the past, there were almost no substances that directly had anti-infection effects on HIV. They could only block gene synthesis and erode proteins. Start developing drugs.

This is not the case with regular influenza viruses.

There are already many drugs targeting influenza viruses on the market. Compared with them, it is difficult for 2CV-Binhydrogen molecules to stand out.

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

Dai Tianqing concluded, "To study the 2CV-Bing hydrogen molecule, we still need to study the specific molecular mechanism between 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 they only know whether they react with a certain substance on the spikes, whether they are combined, ablation between proteins, or 'sticking' to the spikes, it is still a Uncertain things.

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

2CV-Bing hydrogen molecules combine with the HIV spike protein and transform into a more stable protein structure, causing the HIV spike to be unable to function normally.

This reaction was quite coincidental.

The HIV spike is like encountering a natural enemy. It will react when it encounters 2CV-bihydrogen molecules, resulting in a serious weakening of the spike's efficacy.

"Perhaps for this reason, the 2CV-bihydrogen molecule has a very average effect against other viruses." Unless the spike of a certain virus has the same protein as HIV, but has a similar protein structure, the effect will be very small, or even It has absolutely no effect.

When the discussion about 2CV-Bing hydrogen molecules 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, and it's really good. Zhao Yi is another top achievement, and he is in physics research."

"Is this considered mathematics?" Li Ming held a different opinion.

"Physics! Supersymmetry must be physics? It's the effect of particles. I study medicine and I also understand physics!" Dai Tianqing said with certainty.

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

Others looked funny.

Zhao Yi smiled and explained, "It's mathematical physics. Particle mathematics, theoretical physics, it's okay to talk about mathematics, it's okay to talk about physics."

The two of them stopped arguing.

Dai Tianqing patted Zhao Yi on the shoulder and said with emotion, "When did you complete the medical research that shocked the world? Our institute still expects you to become famous!"

After hearing this, the others also looked at Zhao Yi, with somewhat regretful expressions on their faces.

Zhao Yi is a researcher at the Institute of Biomedical Sciences and has made many medical research results, but the one that shocked the world was the discovery of the 2CV-Bing hydrogen molecule.

result……

This research needs to be kept confidential for the time being...

In the past two years, every time Zhao Yi made a sensation in the world, it was in mathematics and physics. A group of people in the School of Science were happy, as if they were celebrating the New Year every day, and there was sensational news every day.

The School of Life at Yanhua University is relatively "low-key". It even won two awards at the National Science and Technology Awards Conference, but Zhao Yi won his own mathematics award. As a result, the School of Science was still the focus.

Although the results of mathematics and physics research belong to Zhao Yi himself, because Zhao Yi is at Yanhua University, people can easily associate the results with Yanhua University.

This impact is still huge.

For example, the number of students applying for the School of Science at Yanhua University increased dramatically last year, and the average admission score increased by nearly 20 points compared with the previous year.

In comparison, the number of students applying to the School of Life Sciences has also increased, but the increase is not that much, and the admission score is not much higher than last year.

It can be seen from this that the outside world pays more attention to the School of Science at Yanhua University rather than the School of Life Sciences, but in fact, the School of Life Sciences is the largest, best, and most influential school at Yanhua University.

Therefore, people at the Institute of Biomedical Research are impatient, hoping that the "confidentiality period" of the research will pass as soon as possible. Some even try to find ways to inquire about the progress of the cooperative pharmaceutical companies about the development of drugs related to 2CV-Binghydrogen molecules, so as to complete the drugs earlier. During the development stage, their results can be announced earlier.

That must be a result that shocks the world!

…

For researchers such as Dai Tianqing and Li Ming, Zhao Yi could only smile and say nothing about the frustration that the results were in mathematics and physics. He also hoped to have major biomedical research results, but the biomedical field is different from mathematics. There are many Achievements are related to 'discovery' and 'luck', and are not just a matter of sufficient ability.

This time the 2CV-bihydrogen molecule is an example.

If they hadn't suddenly discovered that the samples made from Fan Lei's blood had anti-AIDS infection properties, they would not have discovered that the 2CV-bihydrin molecule can combine with the HIV spike and greatly weaken the ability of HIV to invade cells.

The current projects are all extended research on 2CV-Bing hydrogen molecules. It can be said that even the basic conditions are not met to come up with any major results.

"It seems that I will still have to apply for major projects in the future, and maybe I will have the opportunity to achieve major results."

Zhao Yi thought.

It was also a rare free time to come to the Institute of Biomedical Sciences to follow the research progress of the project. As soon as he walked out of the institute, he was stopped by several reporters, accompanied by relevant personnel from the school.

Zhao Yi took a closer look and realized that it was the interview team of CCTV.

The treatment received by CCTV is definitely different. CCTV interviews are generally accepted. After all, it is a positive publicity report for oneself.

Zhao Yi greeted the people in the interview team.

The reporter in charge of the interview team is called Zhou Jun, who specializes in academic interviews. He has interviewed many professors, academicians, etc., including Qiu Chengwen and Yang Zhenning, and has a remarkable "work record" in the past.

Zhao Yi also knew Zhou Jun. The latter conducted an interview with him. It was always good to meet people he knew. They chatted and laughed before going to the science building and entering Zhao Yi's office.

The interviews were conducted in a small space in the office.

Zhao Yi sat on the chair and put on a smile, ready to accept Zhou Jun's questions.

After the cameraman adjusted the lens, Zhou Jun picked up the microphone and asked, "Professor Zhao, can you introduce us to the supersymmetry problem? Many people are paying attention to your latest research results."

Zhao Yi nodded and said, "Supersymmetry is the basis of theoretical physics. On the surface, it refers to the symmetry between fermions and bosons, but in fact it is the foundation of physical symmetry systems."

"In physics, there are many symmetry rules. These rules will make physics, especially the mathematical system of microphysics, look beautiful. Supersymmetry is the basis of it..."

He spoke continuously for about three minutes.

Zhou Jun could understand it at first, but then he didn't understand it. He quickly interrupted and asked, "Then, can you talk about the importance of supersymmetry? I have seen many professional academics say that you The demonstration of the supersymmetry problem is an important event in the 'milestone' of theoretical physics. Why?"

Zhao Yi wanted to continue explaining supersymmetry, but was interrupted and felt a little depressed. He still patiently explained, "The problem of supersymmetry was demonstrated in the last century. After decades of development, it has become the basis of many physical theories. Rules that are established by default.”

"Rules are the basis."

He thought for a while. What he just said was too difficult. Zhou Jun couldn't understand it, so he had to try to make it simpler. "Let's give a simple example. For example, 1 plus 1 equals 2. This is the rule, and then go on." Even if 1 plus 2 equals 3, it is based on the premise that 1 plus 1 equals 2. Only when we know that 1 plus 1 equals 2 can we continue to argue. Do you understand? "

Zhou Jun opened his mouth with a strange expression.

Zhao Yi said he was doing an interview, but actually it felt like he was having a conversation with him. He is also a college student. Couldn't it be more difficult to give an example?

1+1 equals 2?

Are you using him as a guide for children? Especially when he added "Do you understand" at the end, as if he was afraid that he wouldn't understand.

Zhao Yi continued his introduction, "Many physical theories in recent decades are based on supersymmetry. One thing that the theoretical physics community is very afraid of is that supersymmetry is wrong. If it is wrong, the theory Physics will face a major earthquake, and many things that physicists have studied for decades may become a joke. Therefore, demonstrating supersymmetry is very important, which is equivalent to laying the foundation for other theories."

Zhou Jun took a deep breath, glanced at the small notebook in his hand, and continued to ask, "Can you tell me why you did this research?"

Zhao Yidao, "This is part of my research. Mr. Edward Witten and I worked together to build a mathematical system for the boundaries of multi-dimensional space. He was responsible for the M theory part, and I was responsible for the external mathematical part, which cannot be bypassed when constructing particle mathematics." It is supersymmetry, and supersymmetry is also the basis of M theory. If I want to make progress in research, I must demonstrate it."

Zhou Jun asked with interest, "Can you tell us about this cooperation project? I heard an interesting word: multidimensional space."

Zhao Yi smiled and said, "The demonstration of multi-dimensional space can be said to be the study of M theory. The purpose is to unify the two pillars of 20th century science: quantum mechanics and general relativity. The two are incompatible."

"Quantum mechanics, Newtonian mechanics and relativity are completely different things, but why? We live in the same universe. Logically speaking, all rules should be unified. The world of physics has always been committed to unifying the four forces. The development of M theory is based on the ability to unify..."

Zhao Yi said a lot of professional things in succession.

Explaining multi-dimensional space is not an easy task. The understanding of multi-dimensional space by professional academics is not the "traveling through space" in novels and movies, but a concept formed on the basis of respecting the logic of the mathematical system.

This explanation made Zhou Jun feel cloudy and foggy. He quickly found an opportunity to interrupt and asked a simple question.

For example, how long did Zhao Yi conduct research, his thoughts on completing the research, and what he would like to say.

etc.

Zhao Yi knew that he couldn't talk about profound things in interviews, so he gave a simple answer, but the 'polite' questions were boring. He was completely coping with it.

at last.

Zhao Yi announced something and asked, "Will this interview be reported?"

"certainly."

Zhou Jun was a little confused.

Zhao Yidao, "That's right, I would like to take this opportunity to make an announcement. Regarding the research results of this supersymmetry analysis, I will make a relevant report in the conference room of the graduate student building of Yanhua University."

Advertise?

It’s not considered advertising, right? Academic reports are still very important.

Zhou Jun complained secretly.

In CCTV interviews, it is really rare for people who dare to directly advertise, and even if they do advertise, they will usually be cut off.

After the interview with Zhao Yi was over, Zhou Jun returned with the rest of the column team and prepared to cut the interview clips. There was a long and very professional academic explanation, but he cut it out directly, but the column leader Deng Lin believes, “Don’t cut out the last paragraph about making a report.”

"Why?"

Zhou Jun was a little confused. He was not responsible for the later reporting, but he still felt a little strange.

Deng Lin smiled and said, "Don't you understand this? You still do academic interviews often! You should know that for a scholar, the results report meeting is very important, it is a stage for them to show their results."

"Actually, with Zhao Yi's fame, he doesn't need this kind of stage, so he only chooses to publish his results in domestic magazines."

Zhou Jun and others nodded.

"The same goes for academic lectures. He just chose Yanhua University where he is, but I believe this lecture must be very important to him because he is special. It is like an 'advertisement' as you think. "

Deng Lin explained, "In fact, it is not an advertisement. It is an academic seminar and does not involve any financial interests. Moreover, TV viewers also like to see joking scenes in otherwise serious news programs."

"So the best thing is to broadcast it. Our column team will keep this section until the station news team reviews it. We don't care whether they cut it out."

Zhao Yi’s interview was meant to be in the news.

The demonstration of the 'supersymmetry problem' is the world's top achievement, and there is a high probability that it will appear in news reports. News reports are very short. Even major news, each one generally does not exceed five minutes. The footage from the interview will be cut and cut again.

The column team is only responsible for the first cut.

When the news team of the TV station arrives, it will be cut again, and even most of the content will be cut out, leaving only the most important ones for broadcast.

What Deng Lin meant was that since the report would be very important to Zhao Yi, there was no need for them to take the initiative to cut out the footage and send it to the TV station news team for them to make a decision.

…

At seven o'clock the next evening, a thirty-minute news program was broadcast.

The results of the 'supersymmetry problem' demonstration appeared at the eleventh minute. The host reported this, "The famous young scholar Zhao Yi, a professor at Yanhua University, has made a breakthrough in the research on supersymmetry problems in theoretical physics. progress……"

"Based on the boundary theory of particles, he demonstrated the supersymmetry problem and constructed the energy laws of the mysterious particle world, laying a solid foundation for the development of world theoretical physics..."

"Overseas media reported that the demonstration of supersymmetry is a major breakthrough in theoretical physics and is..."

"At the same time, Professor Zhao Yi's "Boundary Theory of Particles" has also attracted widespread attention from international physicists. The Princeton Institute for Advanced Study has publicly declared that it accepts the boundary theory of particles. The famous mathematician and theoretical physicist Fields winner Edward Witten, a well-known and representative scholar of string theory, expressed great affirmation of the boundary theory of particles..."

"The column team conducted an interview with Zhao Yi..."

What was played next was the scene of Zhao Yi being interviewed. Zhao Yi in the camera acted very seriously, and the occasional faint smile at the corner of his mouth also showed a relaxed attitude. The interview report only left a few short and important sentences. content.

Finally, the camera is facing Zhao Yi.

Zhao Yi said with a smile, "I would like to take this opportunity to make an announcement. Regarding the research results of this supersymmetry analysis, I will give a relevant report in the conference room of the graduate student building of Yanhua University."

The news ends here.