When Wang Hao explained the difficulties in the proof process, the review team determined in advance that his proof was perfect.

All the reports have been closed.

When the applause rang out at the venue, many people's moods were very complicated, some people felt that they had witnessed history, some people sighed at Wang Hao's youth and achievements, and some people still felt a little incredible about the NS equation being proven.

Tian Junganfu didn't want to accept the result, but the proof was already there, and the explanation of the report process made him have nothing to say at all.

Math is like that.

What is right is right, and what is wrong is wrong.

After the fierce applause passed, the report was not completely over, and part of the time was spent answering questions.

Although the members of the review team confirmed his report, there were still people who did not understand the logical questions too much, so they stood up and asked questions.

Wang Hao was also very patient to answer.

At this time, the questions he asked were basically the most difficult to understand in the process of proofing, and he patiently explained the most difficult places several times in a row, so that others could understand them thoroughly.

Qiu Chengwen sat in his seat, listened to Wang Hao's explanation and said, "He is really talented in lecturing. Every time I listen to his report, I feel that it is very clear and easy to understand, which is remarkable."

"Indeed."

Martin Hale was next to Qiu Chengwen, and several judges were arranged to sit together, "The person who came with Wang Hao yesterday also explained, what he said was almost the same as what Wang Hao said, but I didn't understand the same thing after listening to it for a long time."

"Could it be a different understanding of the content? Or is it something else? Anyway, I don't think he has any talent for lecturing."

"I feel the same way, maybe it's because he can't speak clearly?"

A man in the back row suddenly followed.

Luo Dayong was sitting in the third row, and he quickly lifted his collar up, but he didn't want others to recognize him.

Is he kind enough to tell someone about it, and he got such an evaluation?

What an embarrassment!

Wang Hao didn't take long to answer questions, and the time was only about half an hour.

He stepped down.

Many people in the front row greeted him, and Martin Hale was at the front, shaking hands with Wang Hao and saying, "I still can't believe that the NS equation problem has been solved like this?"

"Congratulations, this is perhaps the biggest jewel in the field of partial differential equations!"

Others came over and said congratulations.

Wang Hao smiled, "Isn't it still undecided?"

"If such a successful report is not sure of the results, we can doubt the capacity of those institutions." Qiu Chengwen said, "On behalf of the Center for Mathematics at Mizuki University, I recognize your proof."

"Soon, don't worry."

Bruce Pulitzer walked over and said, "Trust me, in no more than a week, even the Cray Institute for Mathematics will recognize your proof."

He changed the subject and said, "Actually, yesterday, I was thinking of discussing with you to add some content to the proof before publishing it, but now I don't think it's necessary, your paper is very good, it's just that other people haven't studied complexity in depth, and it's not easy for me to understand it myself."

Wang Hao asked curiously, "Do you understand the whole content?"

"This ......."

Pulitzer smiled awkwardly, he really wanted to understand the whole thing, but he was distracted when he listened to it, and then he simply didn't understand it at all, he turned his head to look at Tao Zhexuan on the side, "This is Terry's opinion."

Tao Zhexuan also came over to shake hands with Wang Hao, and talked sincerely, "What surprised me the most is not that you have completed the ns equation, but that you can succeed in two different fields, which is very difficult."

"What's next, do you have any research plans?" Will you continue to study partial differential equations, or number theory?"

Everyone else has seen it too.

Wang Hao hesitated for a moment and said, "I've been very interested in algebraic geometry recently, and I might be engaged in research in this area."

Tao Zhexuan opened his mouth and said for a long time, "That's the third realm, I'm looking forward to it."

Qiu Chengwen suddenly said, "You can come to Mizuki University, Kaucher is an expert in algebraic geometry, and you can communicate together."

Wang Hao smiled, "I hope to rely on my own research in this field, so that Mr. Bierkar hopes to come to Xihai University to engage in follow-up research with me."

"Uh~~"

Everyone else laughed.

Qiu Chengwen was stunned for a moment and laughed, but he couldn't help but feel a sense of crisis in his heart.

It took him a long time to persuade Bill Carr to come to work at Mizuki University, but don't you be poached to Seohai University because of the content of his research?

Others say this kind of thing just to listen and laugh.

Wang Hao, it's really hard to say!

.....

The report was concluded by an exchange of scholars.

The seminar is not only a lecture meeting, but also a good opportunity for scholars in the same field to communicate, Donggang University has arranged a three-day exchange meeting, and other scholars have been invited to give reports.

Wang Hao's report was held as a professional academic conference in the field of partial differential equations.

It's an academic event.

The follow-up presentations included four Fields laureates and dozens of leading scholars in the field of partial differential equations, which was even more valuable than the international conferences in the field of partial differential equations.

Wang Hao was still the focus of attention, greeting scholars one by one, and when it was time to eat in the evening, he had time to meet Claudio Prochesi.

Prochesi, who is the head of the International Mathematical Society's award committee, congratulated Wang Hao on his NS equation report, and then said, "I have a hunch that you will definitely succeed, and this is just the beginning, you will become the youngest Fields winner."

"The youngest," he said, "is the youngest to set the record for the age of a Fields winner.

The youngest laureate was Jean-Pierre Serre, a mathematician from the Enamel Kingdom, whose works "Condensed Algebraic Layers" and "Algebraic Geometry and Analytic Geometry" have become the new "classic" texts of modern mathematics.

For his excellence in algebraic topology, Jean-Pierre Searle was awarded the Fields Medal at the age of less than 28.

Now Wang Hao is even younger, and when he arrived at the Fields awards, he had just turned 26 years old, and his age can be said to be unprecedented.

Wang Hao politely thanked Processi for his admiration, and then asked, "Mr. Process, you are here to talk to me about the math conference, right?"

"Of course."

"I saw the email from you, and I can't agree with the reason you said, but you decided not to participate, there must be your reasons, we just don't want to go through another Grigory Perelman."

His voice was very sincere.

Grigory Perelman, a figure who caused headaches for the International Mathematical Society, completed the proof of the Poincaré conjecture and simply posted the proof on the Internet.

Many international institutions recognized Perelman's proof, and he won the Fields Medal for it, but Perelman refused to participate in the International Congress of Mathematicians and directly rejected the Fields Medal.

Not only did he turn down the Fields Medal, but he also turned down invitations from several schools, a million dollars in prize money, and so on.

In order to get the Fields medal into Perelman's hands, the International Mathematical Society even sent someone to find his house, but Perelman turned him away, they threw the medal in through the window, and the medal was quickly thrown out, and later even the window was sealed.

Perelman's story is really interesting.

Most scholars have strange personalities, especially the top mathematicians.

Before coming, Procsi thought that Wang Hao might also be weird, he completed the Goldbach conjecture and the NS equation problem in a row, and he was definitely a super genius.

Are super geniuses normal people?

No one can guarantee this.

Now Prochesi found that Wang Hao was normal, but he did not continue to persuade Wang Hao to participate in the International Congress of Mathematicians, but after opening the topic, he talked about another way to participate, "You can participate in the conference remotely by video."

"Nowadays, technology is so advanced that you can even make a report by the way."

"Of course, if the content of the report is novel, I'm sure everyone will look forward to it."

This takes care of the face of the International Mathematical Society, after all, the lack of a laureate at the Fields award site does sound quite embarrassing.

Wang Hao agreed.

He didn't resist the Fields Medal, he just didn't want to go to Austria to attend the mathematicians' conference.

The outcome of the deliberations was rejoicing.

In this matter, Wang Hao has the initiative, because Fields must be awarded to him, as the top award in international mathematics, Fields's judgment is not so accurate.

For example, in some years, there are not very prominent mathematicians, and some winners may be questioned.

However, when encountering very good mathematicians and very outstanding research results, it is necessary to award the award to the corresponding mathematician just for the fairness and authority of the award.

Like, Andrew Wiles.

Andrew Wiles is already overage, and he was still awarded a Silver Fields Medal for solving the Fermat conjecture.

Grigory Perelman, having completed the proof of the Poincaré conjecture, unequivocally announced his rejection of the Fields Medal, and the Mathematical Society still found his doorstep and threw the medal directly into the house.

The same goes for Wang Hao.

He is even more influential than Andrew Wiles and Grigory Perelman, because he has three works that are enough to get Fields, and his research contributions cover the fields of number theory and partial differential equations.

If the Fields Medal is to be prestigious, it must be awarded to him.

......

The next day was much easier.

The results of the report have been finalized, the report will be followed by the whole world, and there will be a lot of coverage in the public opinion.

Several scholars who participated in the report meeting were interviewed and recognized Wang Hao's proof.

When I went to Donggang University again that day, Wang Hao was also interviewed by reporters and said, "I am very confident in the research, the success of the report is not unexpected, and the NS equation is an important tool. Although the smoothness problem has been solved, in fact, it is more important to give systematic theoretical support to the analysis of equations."

"There are many other research directions in this area, and the argument for smoothness is only the foundation of the foundation."

The reporter didn't seem to be very interested in academic things, and after talking about the NS equation, he immediately turned to another question, "Donggang University is your alma mater, will you consider returning to Donggang University in the future?"

"No, it won't."

Wang Hao said very bluntly, "I'm just here to make a report, you don't need to understand it in depth. There's no way I'm going to come back to work."

"Do you have anything to say to Tunggang University?"

The reporter continued to ask questions, and other people next to him also looked at it with interest.

Donggang University is Wang Hao's alma mater, and there are so many entanglements between him and Wang Hao, no matter which aspect he says, there will be a lot of topicality.

Wang Hao thought about it very seriously and said, "Donggang University is a famous university in China, and there are many outstanding young talents."

"I want to say to these people that other universities are also very good, for example, Seohai University, Seohai University has always wanted more talents to join."

"Donggang University is indeed a prestigious university, but the competition pressure of prestigious universities is very high, and it is not easy to stay, especially for those who are engaged in basic scientific research."

"There are more opportunities at Seohai University, and the university has always had a policy of introducing high-level talents with high salaries......

「......」

Wang Hao talked for a long time, which made the reporters next to him stunned.

After completing the NS equation problem and attracting the attention of the world, he personally took the opportunity to make an advertisement for Seohai University?

......

On his last day in Donggang, Wang Hao met Didier Mayor, who they met in a small box in the hotel's restaurant.

Even on the last day, Wang Hao is still very busy, as long as he goes out normally, there will be many people around him.

It was not easy for Mayor to talk to Wang Hao alone, so he simply came over directly and made an appointment to meet in the private room of the restaurant.

Wang Hao felt strange when he looked left and right, and he asked suspiciously, "Why can't you go outside and talk about it?"

"I'm afraid those mathematicians will go crazy." Mayor explained very bluntly, "You are the future of mathematics, and if I come to talk to you about physics, maybe I will be thrown into the river by that group of people...... Feed the fish?"

Wang Hao imagined that scene and couldn't help laughing, "That won't."

"Mathematicians are crazy." Mayor still insisted on his point of view, and then glanced at Wang Hao and corrected, "You are normal."

The two chatted for a few words.

Mayor got to the point, "Can you elaborate on the power of annihilation? I've just read your article, but it's not clear yet, do you have any follow-up research on this?"

"I've been doing it." Wang Hao affirmed that the purpose of his participation in the communicative gravity experiment was to study the force of annihilation.

"Can you elaborate on that? For example, more about annihilation? The content of your article is very general, if it is particle-related research, what phenomenon do you think may have the effect of annihilation?"

This is a concern for Mayor.

He is one of the heads of CERN, and in the Large Particle Collider project, he has a separate experimental team to do research, hoping to find evidence of the existence of annihilation through particle-related experiments.

Of course, he did not believe in the theory of annihilation, but hoped to use experiments to prove the truth of some physical theories.

The theory of annihilation seems to be in the realm of "experimentally provable".

As an experimental physicist, it is his life's work to use experiments to prove major physical theories.

Wang Hao thought about it carefully, frowned and said, "All I can think of is baryon decay. However, in antimatter measurement experiments, annihilation may have an effect."

"Theoretically, the effect of gravity on the microscopy is much smaller than that of other forces, so the annihilation force should be reflected in a smaller unit of mass, not in a formed particle."

"Even electrons, relative to units of mass, are very, very large, and their own electromagnetic forces must far exceed the effects of annihilation."

Mayor frowned as he listened, "According to your explanation, can it be understood as annihilation, which only acts on a very small so-called unit of mass?"

"Not necessarily."

Wang Hao pondered and continued, "Maybe it also has an effect on the microscopic form." He took a paper cup, and his hand was slightly forced, and the paper cup suddenly appeared folded, "Annihilation force, which can annihilate mass units, but it also has an effect on large particles, but relatively speaking, it is far less than the effect of other forces."

"If it is a microscopic morphological composition, it may also have an effect."

Majoll also picked up the paper cup, and also bent the paper cup with a slight force, and then suddenly said a word, "Topology?"

"What?"

"I mean topology. Haven't you seen the Duncan Haldane study?" Mayor said and shook his head, "Of course, you're a mathematician, so you're probably not interested in superconductivity."

He continued, "Haldane theoretically discovered the topological phase transition of matter and the topological phase, which is the phenomenon of superconductivity."

"The annihilation force you are talking about has an effect on microscopic forms, and it sounds very similar to topology."

Majoll kept shaking his head as he spoke, it was difficult for him to connect annihilation with topology anyway.

Wang Hao was stunned, he heard the system's prompt tone.

[Task 2, inspiration +17.] 】

Topological phase transitions of superconductivity and topological phases?

I see!

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Chapter 204 Follow-up to the Report, Fields' Discussion, Topological Phase Transitions of Superconductivity, and Topological Phases Free Reading.