However, when encountering very outstanding mathematicians and very outstanding research results, just for the fairness and authority of the award, the award must be awarded to the corresponding mathematician.

For example, Andrew Wiles.

Andrew Wiles is already "overage". Because he solved Fermat's conjecture, he was still specially awarded the Fields Silver Medal.

Grigory Perelman completed the proof of Poincaré's conjecture. He clearly announced his rejection of the Fields Medal, but the Mathematical Society still found him at his door and threw the medal directly into the house.

The same is true for Wang Hao.

He is more influential than Andrew Wiles and Grigory Perelman, because he has three results that are worthy of Fields, and his research contributions cover the two fields of number theory and partial differential equations.

If the Fields Medal wants to ensure its authority, it must be awarded to him.

…

The next day was relatively easy.

The results of the report have been finalized, and the report will attract worldwide attention and receive a large amount of coverage in public opinion.

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

When he went to Donggang University that day, Wang Hao also accepted an interview with reporters and said, "I am very confident in the research. The success of the report is not unexpected. The NS equation is an important tool. Although the smoothness problem has been solved, in fact

, and more importantly, how to provide systematic theoretical support in the analysis of equations."

"There are still many research directions in this area, and the demonstration of smoothness is only the foundation among the foundations."

The reporter didn't seem to be very interested in academic things. 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?"

"Won't."

Wang Hao said very straightforwardly, "I just came to make a report. You don't need to understand it in depth. It is impossible for me to come back to work."

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

The reporter continued to ask questions, and other people nearby also looked over with interest.

Donggang University is Wang Hao's alma mater, and there have been so many disputes between him and Wang Hao. No matter what aspect he talks about, it will be a big topic.

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

"I want to tell these people that other universities are also very good, such as Xihai University. Xihai University always hopes that more talents will join."

"Donggang University is indeed a famous school, but the competition pressure from famous schools is very high, and it is not easy to stay, especially for those talents engaged in basic scientific research."

"Xihai University has more opportunities. The university has always had a high-paying introduction policy for high-level talents..."

"..."

Wang Hao kept talking for a long time, leaving the reporters nearby stunned.

Is this after completing the NS equation problem and attracting the attention of the world, and then personally took the opportunity to make an advertisement for Sokai University?

…

On the last day in Donggang, Wang Hao met Didier Mayor. They met in a small box in the hotel restaurant.

Even on the last day, Wang Hao was still very busy. As long as he went out normally, he would be surrounded by many people.

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 a private room of the restaurant.

Wang Hao looked around and felt strange. He asked doubtfully, "Why can't you go outside and say it?"

"I'm afraid that those mathematicians will go crazy." Mayor explained very straightforwardly, "You are the future of mathematics. If I come to talk physics with you, maybe I will be thrown into the river by those people... to feed the fish?

"

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

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

The two chatted for a few words.

Mayor got down to the topic, "Can you talk about the annihilation force in detail? I just read your article, but the details are not clear yet. Do you have any follow-up research in this area?"

"I've been doing it." Wang Hao affirmed. He participated in the AC gravity experiment with the purpose of studying the annihilation force.

"Can you elaborate more? For example, give us a detailed introduction to the annihilation force? The content of your article is very general. If it is particle-related research, what phenomena do you think may have the role of the annihilation force?"

This is a matter of concern to Mayor.

He is one of the leaders of the European Organization for Nuclear Organization. In the Large Particle Collider project, he has a separate experimental team to conduct research, hoping to find evidence of the existence of the annihilation force through particle-related experiments.

Of course, he did not do so out of belief in the annihilation theory, but hoped to use experiments to prove the authenticity of some physical theories.

The annihilation theory seems to be within the scope of 'experimentally proven'.

As an experimental physicist, using experiments to prove major physical theories is his lifelong pursuit.

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

"Theoretically speaking, the effect of gravity on a microscopic scale is far smaller than the effect of other forces, so the annihilation force should be reflected in smaller mass units rather than formed particles."

"Even electrons are very, very large relative to the mass unit, and their own electromagnetic force must far exceed the annihilation force."

Mayor frowned as he listened, "According to your explanation, can it be understood as an annihilation force that only acts on extremely small so-called 'mass units'?"

"uncertain."

Wang Hao pondered and continued, "Maybe it also has an effect on microscopic forms." He took a paper cup and put a little force on his hand, and the paper cup suddenly appeared creases. "The annihilation force can annihilate mass units, but it can also annihilate large particles.

It has an effect, but relatively speaking, it is much smaller than the effects of other forces."

"If it were a microscopic form, it might have an effect."

Mayor also picked up the paper cup, bent it slightly with force, and then suddenly said one word, "Topology?"

"What?"

"I'm talking about topology. Haven't you read Duncan Haldane's research?" Mayor said, shaking his head, "Of course, you are a mathematician, so you are probably not interested in superconductivity issues."

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 mentioned affects microscopic morphology, which sounds very similar to topology."

Mayor kept shaking his head as he spoke. Anyway, it was difficult for him to connect the annihilation force with topology.

Wang Hao was stunned when he heard the system prompt tone.

[Task three, inspiration value +17.]

Topological phase transition and topological phase of superconducting?
Chapter completed!