Wang Hao felt that what Zhu Ping said was very reasonable.

Since the house designed by yourself meets all the requirements, then build your own house by yourself, regardless of the mainstream construction method.

It's the same with research.

In his research on 'semi-topology', some of the content does not conform to the pattern of topology, so he gives a new definition of topology, rather than having to conform to the content of conventional topology.

Wang Hao found that his thinking was still limited.

When it comes to understanding a large amount of knowledge that is defined as correct, there are times when ideas are limited.

When he thought of the correlation between algebraic geometry and topology, he subconsciously thought of the Hodge conjecture, which is considered to be the bridge between topology and algebraic geometry.

However, the semi-topological work he did did did not conform to the content of mainstream topology.

Even if he proved Hodge's conjecture, or studied it very deeply, linking the relevant algebraic geometry and topology, it was of little value to his mathematical work.

In this case, a new definition is given, and a new topological study is done based on algebraic geometry.

Wang Hao thought for a moment, "If we can shape a new definition of topology and connect it with algebraic geometry, it can be regarded as contributing to the unification of mathematics, right?" ”

He thought along this line of thought, and felt that he could also add the content of number theory and establish a new topological system based on multidisciplinary content.

He was not sure about the research in this direction, because he did not have in-depth research on algebraic geometry and topology.

Wang Hao thought about it for a while and decided to ask the expert's opinion.

Cowchel-Bilcarr, Fields Laureate, professor at Mizuki University, is an expert in the field of algebraic geometry, especially in high-dimensional bidirectional geometry.

Wang Hao summed up the problem and then wrote an email and sent it to Cowchel-Birkar.

In the afternoon, he received a reply from Bill Carr, which contained only one sentence, "This is very similar to the latest research by Peter Schultz!" ”

“-————?”

Wang Hao was stunned when he saw the reply message, he hurriedly looked up Peter Schultz's latest research, and found the content after a simple search.

Peter Schultz is one of the world's top mathematicians and is considered one of the top geniuses, and his research dynamics are of great interest.

His latest research is a computer-aided unified study of mathematical theories.

The mathematics community has long been engaged in the study of the unification of theories, and unlike the unification of physics and mechanics, the unification of mathematics is to link completely unrelated disciplines together.

For example, algebraic geometry and topology.

For example, number theory and geometry.

The original theory of "grand unification" mathematics was proposed by Robert Langlandt of Princeton University, who believed that even unrelated branches of mathematics could be related.

Therefore, Langlands put forward the great idea that guided the development of the mathematical community, the Langlands Program.

"Number theory, algebraic geometry, and group representation theory, three relatively independent branches of mathematics, are in fact closely related, and it is some special functions that bind these branches of mathematics together."

The Langlands Program is a grand blueprint for the unification of mathematics.

Peter Schulz, on the other hand, has been researching and finding it difficult to unify the three fields of geometry, functional analysis, and P-decimal numbers because they are incompatible, and together with Dustin Clausen of the University of Copenhagen, he launched the "Condensed Matter Mathematics" project, with the aim of unifying all fields from geometry to number theory.

According to Peter Schultz's latest work, "the key point of condensed matter mathematics is to redefine the concept of topology, which is one of the cornerstones of modern mathematics." ”

"Geometry, functional analysis, and p-decimal numbers, although they involve completely different concepts, many of the results have similarities in other areas."

"Once the topology is defined in the right way, the analogies between theories are revealed as instances of the same condensed mathematics."

Peter Schultz's latest research was to write code using computer-aided means and decided to form a team to refine it.

After Wang Hao learned about Peter Schultz's latest research, he immediately went to check the published papers.

He found that Peter Schultz's work was also a redefinition of topology, but in a different direction than his.

"Schultz's direction is to define the topology in a similar direction from multiple disciplines."

"My direction is to define it based on algebraic geometry and combine it with useful content from other disciplines...... ＂

"The direction is similar, but the content is completely different."

Now Wang Hao understood.

Although the content of the two studies is different, because it is also a new definition of topology, Peter Schultz's work is still very valuable.

He felt like he had found his way.

Of course.

In order to identify a new research, he had to have enough groundwork, and then he kept communicating with Cowchel-Bilkar by e-mail as he continued to do so.

One of the advantages of email communication is that when you see a message during working hours, you can reply when you have time, and it will not be too intrusive, especially if they are talking about academic issues, often a question cannot be thought of at the first time, and it is difficult to have a direct conversation.

In the mutual exchange of emails, Wang Hao also felt that he had gained a lot.

He clarified the main direction of research and development.

Establish a task –

[Task 2]

[Research Project Title: Constructing a Unidirectional Semi-Topological System (Difficulty: S).] 】

[Inspiration value: 0.]

....

Mizuki University.

Cowchel-Birkar finished teaching the students, and on the way back to the office, they happened to meet Qiu Chengwen, and they spoke a few words together.

Qiu Chengwen talked about Wang Hao's latest achievements and sighed, "Wang Hao is so surprising, I didn't expect that he would do physics research and find out a superconductivity law." ”

"At that time, when I watched the conference of mathematicians, when he gave a report, I thought that he would slowly explore the problem of electromagnetic force in this direction, and as a result, he came up with such an achievement, I guess he could win the Nobel Prize in physics, right?"

"Fields plus Nobel, he also became the first person in history."

Qiu Chengwen's words were full of emotion.

"Wang Hao is indeed a genius, and he has recently been working on the construction of new topological systems based on algebraic geometry. ”

He didn't say a word, "This research may be related to his Wang's geometry." ”

"How do you know?" Qiu Chengwen asked with some surprise.

Billkar laughed, "I've been in contact with Wang Hao by email lately, and he has asked me a lot of questions about high-dimensional bidirectional geometry. ”

"Oh?"

"He also said that he would come to the capital for a while, to talk to me in person, and that he wanted to do research with me, which I am looking forward to. ”

Qiu Chengwen nodded after hearing this, he was thinking about it and was about to walk away, when he suddenly thought of Lin Bohan who was leaving.

Lin Bohan is doing topology-related research with Wang Hao, and Wang's geometry paper still has Lin Bohan's name, and his choice to go to Xihai University can be said to be very correct.

Now it's Gaucher-Bilkar.......

Bill Carr is a Fields winner, a super expert in algebraic geometry, and he is definitely not comparable to Lin Bohan, but the other party is Wang Hao!

Qiu Chengwen's heart trembled, and he suddenly had an ominous premonition.

.......

National Research Center for Condensed Physics.

Negotiations for the exchange of technology for the exchange of gravity research have been ongoing, and both sides of the negotiations have their own needs and at the same time, there is mutual distrust.

That's where the contradiction lies.

The need of the American team was to get a part related to the development of the theoretical mechanism of superconductivity and the exchange of gravity experiments, in other words, they wanted to know how to do the follow-up research.

The need of the domestic team is to obtain technology related to improving the strength of communication gravity.

In the study of alternating gravity, the Alamos laboratory has been conducting it for many years, and it must have invested a lot of money, and their main direction is the alternating gravity intensity, which naturally has a high level of technology.

Wang Hao also hopes to get Alamos Labs' technology to increase the strength of alternating current gravity.

Alternating gravity experiments are fundamental.

In fact, he and Philippe Rawrell made a similar judgment that there must be an extreme value for the strength of antigravity, but he did not think that it would be 40 percent, but much higher.

If the relevant research can reach the extreme, then at least in the study of the strength of the alternating gravity field, it has reached the peak.

Of course.

Even if it can be studied to the extreme, there is still no possibility of AC gravity technology.

If such a technology wants to be applied, the premise must be the large-scale popularization of superconducting technology, otherwise the cost alone is simply unacceptable.

However, with the study of alternating gravity as a foundation, it is relatively easy to continue to study superconductivity technology. Domestic teams want technology.

Amriken's team wanted theories and wanted to know how to combine them with experiments for follow-up research.

If it is an opponent who trusts each other, the two sides will definitely be able to reach an agreement quickly, but it is precisely because of the mutual trust of the two sides that they will not show their hole cards at all, and as a result, the negotiations have not progressed for a long time.

The representative of the domestic team consulted Wang Hao directly on the disputed issue.

Wang Hao's answer was, "Theory, including experimental methods, can be given, and it is best to be directly disclosed, but the technology is not good." ”

In other words, there is no problem with giving Amriken the experimental method, or even making it available to the world. This is mainly because it is impossible to complete the research on your own.

If the relevant experimental methods are not made public, it is equivalent to continuing to do research on their own, and the technology of communicating gravity may be improved, but the research in the direction of superconductivity will definitely encounter a series of problems.

A new theoretical study will definitely take a lot of teams to do together.

In fact, this is the case in international research, where theories can be directly disclosed, and most theoretical research is carried out in international cooperation.

For example, the Particle Collider project.

This project is carried out by many countries and institutions around the world, and the experimental data is also shared with the world.

However, some direct high-end technologies are impossible to disclose.

If you can exchange experimental methods for high-end technology, it is also very worthwhile, and Wang Hao is also very confident in his research and development capabilities.

Even if Amriken invests more money and has more scientists involved in research, he believes that his research and development will be faster than the other party.

Amriken's team thinks the same way, they have more good scientists and they can invest more.

If both parties are on the same starting point for R&D, they are very sure that they will master the high-end technology faster.

There will always be an end point in negotiations.

Although there is no basis for mutual trust between the two sides, they have reached agreement on some aspects because each side takes what it needs.

Amriken's team can provide an experimental method to achieve an anti-gravity effect of 25 percent.

The domestic team said that it can provide a test method with an anti-gravity effect of 12%.

This statement surprised Ameriken, who initially judged that the strength of the domestic research on the AC gravity field should be around 10 percent.

However, the value is only 12 percent, which is not too much, which is still expected.

The two sides exchanged reports on experimental methods, but the work was not completely over, they only exchanged technologies, and it was also necessary for the domestic side to openly exchange gravity experiments and contact the methods of superconductivity mechanism research.

......

The exchange of experimental methods is only the initial cooperation, and both parties must also validate each other's experimental methods.

Wang Hao soon received the experimental method provided by the American team, which talked about a new design, which allows the superconducting materials to be spaced in the form of spherical nodes, and the overall layout is designed to be spherical.

"This is a novelty...."

"However, it should have been changed, right?" Wang Hao knew too much about the design of the layout of the AC gravity experiment, and he quickly found the problem based on his own theory.

It is certainly not right to have a spherical design as a whole, because the spherical shape causes the AC gravity field to spread out in all directions, rather than concentrating in one direction.

Although the design has been changed, the 25% value is not wrong.

Verification has been carried out at Factory 244.

This new material layout design can also help Wang Hao to have a better understanding of the experiment, and the data detected during the experiment can also help to continue to improve Wang's geometry to a certain extent.

"If we can embed the spherical design method into our original design, then the improvement is ...... ＂

He calculated it carefully, and soon the result was, "More than thirty-five percent!" ”

Their original value was 24 percent, and with the addition of a new method, the AC gravity field value could be increased by more than 35 percent.

That's already a high number.

Wang Hao felt that the value could be higher, and he thought of a design where the two materials crossed together. However, there is no rush for the time being.

When the two parties have negotiated the content of the exchange, they will move on to the next level, verify each other's content and fulfill the terms of the exchange.

So Wang Hao is going to the capital.

He is also looking forward to going to the capital, and the American team includes physicists who are directly involved in communicating gravity research.

So go to the capital and talk to each other about the gravity experiment, and it is best to explain the experiment to the other party, there should be a lot of inspiration, right?

"Since the content of the technical exchange has been discussed, we must carefully explain it to the other party, so that the other party knows how to do the experiment, and don't affect the experimental results because we don't understand."

"This is also considered to be an 'after-sales' service. ”

"As a scientist and scholar, not a politician, I am so selfless and so helpful!"

Wang Hao went to the capital with great expectations.

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