Wang Hao thought what Zhu Ping said made sense.
Since the house you design yourself meets all the requirements, then you can build your own house yourself, regardless of what the mainstream construction methods are.
The same goes for research.
Some of the contents of the 'semi-topology' he studied did not conform to the topology model. In this case, he gave a new topological definition, rather than having to conform to the conventional topology content.
Wang Hao found that his thinking was still limited.
When understanding a large amount of knowledge content that is defined as correct, sometimes ideas are subject to certain limitations.
When he thought about the connection between algebraic geometry and topology, he subconsciously thought of Hodge's conjecture, which is considered to be a bridge between topology and algebraic geometry.
However, the semi-topological work he did did not conform to the content of mainstream topology.
Even if he proves Hodge's conjecture, or goes very deep into research and connects related algebraic geometry and topology, it will be of little value to his mathematical work.
In this case, a new definition is given to conduct new topological research based on algebraic geometry.
Wang Hao thought thoughtfully, "If we can create a new definition of topology and connect it with algebraic geometry, can it be considered a contribution to the unification of the mathematics discipline?"
He thought along this line of thinking and felt that he could also add content from number theory and establish a new topological system based on multi-disciplinary content.
He had no confidence in doing research in this direction because he had no in-depth research on algebraic geometry and topology.
Wang Hao thought for a while and decided to ask experts for their opinions.
Coucher-Bill Carr, Fields Medalist, professor at Waterwood University, an expert in the field of algebraic geometry, especially high-dimensional two-way geometry, is an expert among experts.
Wang Hao summarized the problem, then wrote an email and sent it to Coucher-Bill Carr.
That afternoon, he received a reply from Bill Carr, which contained only one sentence, "This is very similar to Peter Schulz's latest research!"
“————?”
Wang Hao was stunned when he saw the reply. He quickly looked up Peter Schulz's latest research, and found the content after a simple search.
Peter Schulz is one of the top mathematicians in the world and is also considered one of the top geniuses. His research developments are of great concern.
His latest research is to conduct unified research on mathematical theories with computer assistance.
The mathematics community has long been conducting research on the unification of theories. Unlike the unification of physics and mechanics, the unification of mathematics is about linking together completely unrelated subjects.
For example, algebraic geometry and topology.
For example, number theory and geometry.
The original "grand unified" mathematical theory was proposed by Robert Langland of Princeton University. He believed that even unrelated branches of mathematics may be related.
Therefore, Langlands proposed a great idea to guide the development of the mathematical community-the Langlands Program.
“Number theory, algebraic geometry and group representation theory, three branches of mathematics that developed relatively independently, are actually closely related, and it is some special functions that connect these branches of mathematics.”
The Langlands Program can be called a grand blueprint for the unification of mathematics.
Peter Schulz has been conducting research. He found that it is quite difficult to unify the three fields of geometry, functional analysis and P-adic numbers because they are not compatible with each other. He and Dustin K. of the University of Copenhagen Lawson, together they launched the "Condensed Matter Mathematics" plan, with the goal of unifying various fields from geometry to number theory.
Peter Schulz's latest achievement believes that "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-adics, even though they involve completely different concepts, many results have similarities in other fields."
"Once topology is defined in the right way, analogies between theories are revealed to be instances of the same condensed mathematics."
Peter Schulz's latest research was to write code using computer-assisted means, and decided to form a team to improve the code.
After Wang Hao learned about Peter Schultz's latest research, he immediately checked the published papers.
He discovered that Peter Schulz's research also redefined topology, but in a different direction.
"Schulz's direction is to define topology in similar directions across multiple disciplines."
"My direction is to make targeted definitions based on algebraic geometry and combined with useful content from other disciplines..."
"The direction is similar, but the content is completely different."
Now Wang Hao understood.
Although the content of their research is different, Peter Schulz's work is still of great reference value because it is also a new definition of topology.
He felt like he had found his direction.
Of course.
If you want to determine a brand-new research, you must have enough foundation. Next, during the process of continuous research, he continued to exchange emails with Kaucher-Billkar.
One advantage of email communication is that when you see a message during working hours, you can reply when you have time without being too intrusive. Especially when they are talking about academic issues, a question often cannot be thought of at the first time, and it is difficult to have a direct conversation.
Wang Hao also felt that he gained a lot from the exchange of emails.
He clarified the main direction of research and development.
Create a task——
【Task 2】
[Research project name: Constructing a unidirectional semi-topological system (difficulty: S). 】
[Inspiration value: 0.]
....
Shuimu University.
After Kaucher-Billkar finished teaching the students, he happened to bump into Qiu Chengwen on the way back to the office, and they exchanged 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 study physics and actually develop a superconducting law."
"When I was watching the Mathematicians Conference, when he was giving a report, I thought he would slowly explore the problem of electromagnetic force in this direction. As a result, he produced such a result. I guess he can win the Nobel Prize in Physics, right?"
"Fields plus Nobel, he has become the first person in history."
Qiu Chengwen's words were full of emotion.
Birkar said with interest, "Wang Hao is indeed a genius. He has recently been studying the construction of new topological systems based on algebraic geometry."
He added, "This research may be related to his Wang's geometry."
"How did you know?" Qiu Chengwen asked in surprise.
Birkar said with a smile, "I have been in contact with Wang Hao by email recently, and he asked me a lot of questions about high-dimensional two-way geometry."
"oh?"
Birkar continued, "He also said that he would come to the capital for a while, communicate with me face to face, and hopes to conduct research with me. I am looking forward to this research."
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 Boxan did topology-related research together with Wang Hao. Lin Boxan's name is on Wang Hao's geometry paper. His choice to go to Xihai University can be said to be extremely correct.
Now it's Coucher-Bill Carr...
Bill Carr is a Fields winner and a super expert in algebraic geometry. He is certainly not comparable to Lin Bohan, but he is Wang Hao!
Qiu Chengwen's heart trembled, and he suddenly had an ominous premonition.
.......
National Research Center for Condensed Matter Physics.
Negotiations for technology exchange regarding communication gravity research have been ongoing. Both parties to the negotiations have their own needs and at the same time, they do not trust each other.
This is where the contradiction lies.
The needs of the American team are to obtain parts related to the development of superconducting theoretical mechanisms and AC gravity experiments. In other words, they want to know how to conduct follow-up research.
The demand of the domestic team is to obtain technology related to improving the intensity of communication gravity.
Alamos Laboratory has been conducting research on AC gravity for many years and has certainly invested a lot of money. Their main direction is AC gravity intensity, and naturally they have a very high technical level in this area.
Wang Hao also hopes to obtain Alamos Laboratory's technology to improve the intensity of AC gravity.
Communicating gravity experiments is fundamental.
In fact, he and Philip Laurel had similar judgments. They both believed that the anti-gravity strength must have an extreme value, but he did not think it would be 40%, but much higher.
If relevant research can reach the extreme, then at least the research on AC gravity field strength will have reached its peak.
Of course.
Even if it can be researched to the extreme level, there is still no possibility of application of AC gravity technology.
If such technology is to be applied, the premise must be the large-scale popularization of superconducting technology. Otherwise, the cost alone is simply unacceptable.
However, with the research on AC gravity as a foundation, it will be relatively easier to continue to study superconducting technology. Domestic teams want technology.
American's team wants theory and wants to know how to combine experiments with follow-up research.
If they were opponents with mutual trust, the two sides would definitely be able to reach an agreement quickly. However, precisely because of the lack of mutual trust, the two sides would not show their trump cards at all. As a result, the negotiations have not made progress.
Representatives of the domestic team directly consulted Wang Hao regarding the controversial issue.
The answer given by Wang Hao is, "The theory, including experimental methods, can be provided. It would be best if they can be disclosed directly, but the technology cannot be provided."
In other words, there is no problem with giving American the experimental method, and there is no problem even if it is disclosed to the whole world. This is mainly because it is impossible to complete research on your own.
If the relevant experimental methods are not made public, it means that you will continue to do research alone. The technology of communication gravity may be improved, but research in the direction of superconductivity will definitely encounter a series of problems.
A new theoretical study definitely requires many teams to work together.
In fact, this is true for international research. Theories can be directly disclosed, and most theoretical research is carried out through international cooperation.
For example, the particle collider project.
This project involves many countries and institutions around the world participating in the research, and the experimental data are also shared globally.
However, some direct high-end technologies are simply impossible to make public.
If you can use experimental methods to obtain high-end technology, it is also very worthwhile. Wang Hao is also very confident in his own research and development capabilities.
Even if Amrican invests more funds and has more scientists involved in research, he still believes that his research and development will be faster than the other party's.
American's team thinks the same way. They have more outstanding scientists and can invest more funds.
If both parties conduct research and development from the same starting point, they are very sure that they will master high-end technology faster.
Negotiations always have an end point.
Although the two sides had no basis for mutual trust, they still reached agreement on certain aspects because each wanted to get what they needed.
American's team can provide an experimental method that can achieve an anti-gravity effect of 25%.
The domestic team stated that it can provide a test method with an anti-gravity effect of 12%.
This statement surprised American. Their initial judgment was that the strength progress of domestic research on AC gravity fields should be about ten percent.
However, the value is only 12%, which is not too much, so it is still expected.
The two parties exchanged experimental method reports, but the work is not completely over. They only exchanged technically. They also need domestic parties to openly exchange gravity experiments and contact methods for superconducting mechanism research.
...
The exchange of experimental methods is only the initial cooperation, and both parties must also verify each other's experimental methods.
Wang Hao quickly received the experimental method provided by the American team, which talked about a brand-new design in which superconducting materials are arranged at intervals in the form of spherical nodes, and the overall layout is designed to be spherical.
"This is very novel..."
"However, it should have been modified, right?" Wang Hao knew too much about the design of the AC gravity experiment layout. He quickly found the problem based on his own theory.
The overall spherical design is definitely wrong, because the spherical shape will cause the AC gravity field to spread around instead of concentrating in one direction.
Although the design has been modified, the 25% value is not wrong.
The 244 factory has already verified it.
This new material layout design can also help Wang Hao better understand the experiment. 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, the improvement will be..."
He calculated carefully and soon got the result, "More than thirty-five percent!"
Their original value reached 24%. After adding a brand new method, the exchange gravity field value can be directly increased by more than 35%.
This is already a very high value.
Wang Hao felt that the value could be higher, so he came up with a design in which the two materials went hand in hand. However, there is no rush yet.
After the two parties have negotiated the exchange content, they move to the next level, the stage of mutually verifying each other's content and fulfilling the terms of the exchange.
So Wang Hao is going to the capital.
He is also looking forward to going to the capital. The members of the Amerikan team include physicists who are directly involved in the study of communicative gravity.
Then go to the capital and talk to the other party about the gravity experiment. It would be better if you can explain the experiment to the other party. You should gain a lot of inspiration, right?
"Now that the technical exchange content has been discussed, we must carefully explain it to the other party so that the other party knows how to conduct the experiment. Don't affect the experimental results because of lack of understanding."
"This can be regarded as "after-sales service". "
"As a scientist and scholar, not a politician, I am so selfless and so willing to help others!"
Wang Hao went to the capital with great expectations.
To see the fastest update of "From University Lecturer to Chief Academician", please enter in your browser - go to 518 to view
