The annihilation theory is an idea that emerged and was judged to be correct by the system in the process of Wang Hao's metaless decay data analysis.

That's when he decided to start doing research.

The research didn't go well from the beginning, he just finished the analysis of the representations, and because he couldn't find anything else related to it, he couldn't build a mathematical system.

Later, he stumbled upon the fact that the study of alternating gravity seemed to be related to the manifestation of annihilation, and he decided to participate in the alternating gravity experiment.

The study of alternating gravity went well, but in the process of continuous experimentation, the progress of the tasks related to the annihilation theory was not improved.

The inspiration value of the related quest has not been increased since it was stuck at '60'.

Now it's finally improved again.

[Task 3]

[Title of Research Project: Exploring the Manifestations of Spatial Annihilation (Difficulty: S).] 】

[Inspiration: 77.] 】

"Sure enough, it is related to superconductivity, but I didn't expect that it would extend the complex problem of matter topology."

Wang Hao sighed.

Topology is a sub-discipline of mathematics developed from geometry and set theory, which mainly studies the concepts of space, dimension and transformation.

The origin of these terms can be traced back to the Gothic Fryde-Leibniz, who in the 17th century coined the terms "geometry of position" and "phase analysis".

Leonhard-Euler's Königsberg Seven Bridges problem and Euler's demonstrative number are considered to be the original theorems in the field of topology.

Topology is a very imaginative discipline, and the concept of topological equivalence is not discussed in the discipline of congruence of two figures.

For example, a circle and a triangle have different shapes and sizes, but they are equivalent shapes under topological transformations.

Football and rugby, for example, are also equivalent.

Swimming rings and soccer balls have different topological properties because there is a "hole" in the middle of the swimming ring.

In topology, the space represented by the football is called the sphere, and the space represented by the swimming ring is called the torus, and the sphere and the torus are different spaces.

Obviously, in the normal understanding, the problem of topology can only exist in the imagination, because real matter has shapes and sizes that are different.

Therefore, in the past, it was believed that it was impossible to find topological terms in reality.

Duncan-Haldane's research focuses on topological phase transitions and topological phases of matter, and he and his colleagues use topology as a research tool in the hope of applying topological concepts to physics.

This is a very surprising approach.

The rest of their peers even thought they were crazy, because topological phase transitions and topological phases only exist in mathematical concepts.

Later, Duncan-Haldane and his colleagues demonstrated that superconductivity can occur at low temperatures, and explained the mechanism by which superconductivity can occur at higher temperatures—phase transitions.

This research helped them win the Nobel Prize in Physics.

In fact, it should be noted that Duncan-Haldane did not really discover the topological phase transition of superconductivity, but used topology to explain some phenomena in superconductivity research.

Most of the work he did with his colleagues was math, and he didn't really find changes in topological properties inside superconductivity.

The topological phase transitions and topological phases of superconductivity are just one explanation of the relevant condensation physics.

The reason why this explanation can win the Nobel Prize is mainly because it uses topology to explain condensate physical phenomena, which is very innovative, and can promote the scientific community's multi-faceted understanding of material phenomena.

It is generally believed in the physics community that the introduction of topology to explain condensate physics is very valuable for the development of materials science.

Similarly, the theory of annihilation is a microscopic physical explanation.

More importantly, Wang Hao has clearly understood that the manifestation of annihilation force is directly related to the topological phase transition within superconductivity.

After digesting the latest progress of the mission, Wang Hao also became very enthusiastic about Mayor, and he explained his annihilation theory in detail.

"Annihilation can be understood as the microscopic manifestation of gravity."

"At the same time, it can also be understood as the role of space and particles, and the previous physical explanation is that massive objects can have an effect on space, which is the most basic gravitational force."

"But the action of force is reciprocal, and I believe that this is the most fundamental law of the universe."

"Even if it is a tiny particle, as long as there is mass, it must be related to the role of space."

「.....」

On this issue, Wang Hao has said a lot in a row, even some of his own thoughts, and some things that cannot be proven.

He even talked about the mathematical framework he had built, but the framework had not yet been reached, only some simple logic.

Wang Hao's performance is so enthusiastic, which is also related to the reason for Mayor's arrival.

Mayor came for the theory of annihilation, hoping to find a way to prove the existence of annihilation through experiments.

It's good for him.

If a completely new theory can be proved experimentally, the Nobel Prize in physics can be said to be close at hand.

Wang Hao also hopes that Mayor will be able to prove his theory.

The purpose of the two men is the same.

It's a pity that in terms of particle-related experiments, Wang Hao can think of the physical process directly related to annihilation, that is, the physical process in which annihilation is involved, only the decay of baryons.

It's like the decay of positive and negative Corsi hyperons.

Mayor also proposed several design schemes for the decay of baryons, and he and Wang Hao discussed them for a long time.

After two hours had passed, they had to end, because Wang Hao was about to take a plane back to Xihai in the afternoon.

The two walked out of the restaurant together.

Martin Hale was at the door, he was carrying a suitcase in his hand, obviously looking like he was leaving, and when he saw Wang Hao and Mayor walking out together, he waved his hand to say hello.

Mayor waved away, turned and quickly left.

Wang Hao walked over and asked, "Are you leaving?" Back to London?"

Martin Heldao, "I'll go back to Odili first, and this time I'll be on vacation, and I'll have a week of vacation left."

"That's not bad."

"You and Mayor have a good conversation?" Martin Hale, "I told the others yesterday that they were all worried about you being abducted to study theoretical physics."

He emphasized, "Mayor isn't very popular."

"He succeeded?"

"What?"

"I mean, Mayor succeeded, and I'm going to go back and study my theory of annihilation."

「...... You're not kidding, are you?" Martin Hale opened his mouth exaggeratedly.

"I'm never joking when it comes to research."

Martin Hale didn't know what to say for a while, he hesitated for a long time, but still persuaded, "I suggest you think about it, those theoretical physicists are crazy."

"My car is coming, it's leaving."

Martin Hale walked forward with his luggage, then turned back and added, "But ......."

"You're crazy too."

......

Mayor.

Martin Hale is gone.

A lot of people are gone.

Wang Hao also left.

When he came, his mood was a little complicated, and when he left, he felt very flat, and even looked forward to going back soon.

Because, he found the direction of research.

The topological phase transitions of superconductivity, the AC gravity field, and the annihilation theory seem to form a closed loop in the research, whereas before, the annihilation theory and the AC gravity field could not be related at all.

The topological phase transition within the superconductor happens to be the intermediary in the middle.

"Therefore, the formation of the AC gravity field is likely to be affected by the annihilation force, and the microstructure inside the superconducting is affected to form topological phases and topological phase transitions, resulting in incidental physical phenomena?"

"In short, there must be a relationship between the three."

To be precise, the relevant research belongs to the category of "condensation physics", which is a new interpretation of superconducting condensed physics.

Wang Hao and his entourage returned to Xihai City, and when they came back, the situation was different.

In the conference hall of Donggang University, Wang Hao's NS equation report was successful, which means that the NS equation problem has been solved.

The Millennium Math Puzzle has been solved, which is definitely the biggest news in the world of mathematics.

Wang Hao himself is the most attractive, and he has already had a lot of heavyweight research before, even including the Goldbach conjecture.

At just 26 years old, he will definitely get Fields this year and become the youngest Fields winner.

This series of halos on the head is enough to arouse huge public opinion.

Now that he has completed the NS equation problem, there are discussions about him everywhere, and in terms of domestic mathematics, he can even be said to be a 'god'.

He was the first mathematician, even surpassing those historical figures.

There were already a large number of reporters waiting at the airport gate, and there were even many "fans" who came to greet him, and they stood there shouting Wang Hao's name, as if they had crazy worship for him.

Wang Hao really experienced the feeling of a star.

A large number of reporters, a large number of people came to pick up the airport, he just walked out, was surrounded by a group of people, but fortunately, with the help of the airport security and the security guards around him, he successfully got out of trouble.

What made him feel crying and laughing the most was the shouting of a group of suspected fans, "Wang Hao! Wang Hao!"

"Welcome back!"

"Wang Hao! Hao! You are our pride!"

Wang Hao tugged at the corners of his mouth, waved his hand over there, and then said into the microphone of a reporter next to him, "I'm not a star, I don't need fans, please be sensible."

Only then was he escorted to the car.

At this time, Wang Hao also somewhat understood why some celebrities would get on the bus directly without paying attention to anyone at the airport.

There are too many reporters who come to interview, and there are a lot of fans, and it is impossible for everyone to take care of them, so they simply ignore them.

He returned to Seohai University.

Xihai University also has relevant countermeasures, they carry out unified management of journalists, and clearly prohibit reporters from entering the school to conduct interviews without permission, even if they only conduct interviews with students, they must first apply, otherwise it is a violation.

At the same time, there are security guards patrolling the school, expelling a reporter when they see one.

In this way, the school is much quieter.

After Wang Hao returned to school, he first took a break, and by the way, he cared about the project of the Space Agency, and the project has been docked.

The space agency has taken the relevant code and is verifying the core algorithm.

The verification process takes at least a month, and they need to constantly make calculations to make sure that all the results meet the requirements and that there are no surprises.

After that, Luan Haiping came over again, and he asked about things related to the course.

The semester is almost over.

The next semester was about to prepare, and he asked what courses Wang Hao was going to teach.

This time, Wang Hao declined the course, "Next semester, I will give more lectures in the laboratory, or give public lectures to students."

When Luan Haiping heard Wang Hao's words, he immediately laughed easily, what he hoped most was that Wang Hao would not waste time in ordinary classes.

Now it's finally happening.

In fact, Wang Hao also has his own considerations in the curriculum, and he found that it is best to give lectures to graduate students and doctoral students in the laboratory, because he can talk about whatever he wants.

If there is a real demand for courses, you can also open large classes.

The general ordinary course has no meaning for his current research, and the most important thing is to find the research direction for A-level or above research, as long as there is a correct research direction, the inspiration value will continue to rise.

On the other hand, no matter how many irrelevant courses are taught, the inspiration value will not continue to rise if it reaches a certain amount.

The next day, Wang Hao went to the physics laboratory.

The physics lab now is completely different from two months ago.

The laboratory has more people, directly recruited four postdoctoral fellows, including an associate researcher, and at the same time, the vacant room on the first floor has also been turned into an equipment room, and several new equipment have been added.

The largest piece of equipment is a set of pressure holding and holding devices, which was specially purchased for AC gravity experiments.

This set of equipment alone used up 11 million yuan.

The new equipment is naturally effective, and with the assistance of the new equipment, the follow-up related experiments will be easier, and the cost will be reduced accordingly.

The biggest development of the laboratory is the addition of an important researcher, Xiang Qiansheng.

As a researcher at the National Laboratory of Superconductivity and an expert in the field of electronic science and engineering, Xiang Qiansheng has rich research experience in the field of superconductivity, and his arrival can even directly make up for the relative lack of experience in superconductivity research in the physics laboratory.

Xiang Qiansheng is still adapting to the environment.

He has only been at Xihai University for two weeks, and the school attaches great importance to his arrival and takes a lot of care of his life.

However, Xiang Qiansheng is still more concerned about experiments, and the purpose of his coming to Xihai University is to participate in the research project of communication dynamics.

He was very interested in the research direction proposed by Wang Hao.

When he saw Wang Hao again, Xiang Qiansheng asked about the relevant content, and also provided a piece of grapevine, "I heard that Wang Chenglin is conducting research in the direction you said."

"This guy is really shameless, he just doesn't let their project be a project, and he wants to steal your research direction."

"He found at least four mathematics professors who were responsible for building mathematical models."

"They've been in this direction for a month now, and it's estimated that they've made some progress."

Xiang Qiansheng said that he was a little worried.

The project of the physics laboratory has been decided, but if the research progress is not as good as that of the basic science center, it is still very depressing to say, and it will also affect the subsequent project application.

Wang Hao shook his head and said, "Professor Xiang, you don't have to worry about this, their research can't make progress."

"Oh?"

Wang Hao said, "Of course, I'm not saying that there is no progress at all, but they can't have a meaningful breakthrough."

"Why?" Xiang Qiansheng was a little incomprehensible.

Wang Hao said, "Because the relevant mathematical analysis is very difficult, it is not possible for everyone to construct a mathematical model, as long as there is a little error, there may be problems."

"Of course, there is a lot of experimental data, and it can be slowly improved in the future, but this speed is very slow."

"In addition, all mathematical model construction needs to be supported by basic theories, otherwise there will be no meaning at all."

"The reason why I didn't rush to start the project was because I didn't find a definite theoretical support."

It was the first time Xiang Qiansheng had heard this kind of statement, because it was a very novel method to study mathematical models with physical experiments, and he had not been engaged in similar framework research.

He asked suspiciously, "Isn't the research you said to be the main direction of building mathematical models?"

"Of course not."

Wang Hao said, "Mathematics is just a method, a means, and it is the same in any research."

He explained, "Actually, their original research on condensation physics is a good direction, and it is possible to use this direction as a theoretical basis and then build a mathematical model."

"It's a mistake for them to focus on building mathematical models."

"Our research is the same, which is to rely on experiments to construct mathematical models to help refine the basic theories."

Xiang Qiansheng suddenly grasped the key, "What theory?"

Wang Hao thought about it and said, "I'm researching, it should be called ......."

"The annihilation topological phase transition theory of superconductivity, right?"

「......「

Xiang Qiansheng suddenly felt a little unreliable when he heard it, he thought that Wang Hao already had theoretical support, but he said something that he didn't understand at all.

This is, being studied?

It's annihilation and topology, it sounds a little unreliable!

(Ask for a commuter pass)

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Chapter 205: Back to the West Sea, Star Treatment, Annihilation Topology? Xiang Qiansheng: Sounds unreliable! Free to read.