After Zhu Jianrong saw Birkar, he immediately called Luan Haiping, and then the two got together.
"Are you sure you read that correctly? It's the one from Kaucher-Birkar? Shuimu University?" Luan Haiping didn't know the news at all.
He was shocked when he heard what Zhu Jianrong said.
Zhu Jianrong nodded affirmatively, "I have never met Birkar in person, but I have read the news and seen the photos. I just re-read it, and it must be him."
"Why didn't I know?"
Luan Haiping muttered to himself, and immediately thought of the key point.
Wang Hao!
This time it must be Wang Hao's personal invitation, not the school's invitation, so he won't say hello to the school.
But generally speaking, top mathematicians like Bill Carr will be warmly received at any school they go to.
Now they were caught off guard and didn't know what to do specifically. Should they go over and say hello, or should they just pretend they didn't see him?
Luan Haiping suddenly thought of a key question, "Wang Hao invited Birkar here, probably to discuss mathematical problems, so will he invite Birkar."
As he spoke, his eyes suddenly widened, "No way!"
"Why not?" Zhu Jianrong was a little confused.
Luan Haiping said, "Wang Hao asked me before if I could get a salary if he invited a professor? I thought he invited Professor Tian Hong from Capital University, not Birkar?"
"What are you thinking! How can such a good thing happen!" Zhu Jianrong immediately denied it and said, "A top mathematician like Bill Carr cannot be invited just because he wants to."
"And even if he wanted to come to our school, he would probably have a lot of problems and it would be impossible for him to come just by inviting him."
"That's right." Luan Haiping felt that he was thinking too much.
Compared with the environment of Shuimu University, Xihai University has almost no advantages at all.
The other party came to Xihai University because of Wang Hao. They were just studying math problems together. There was no need to stay at Xihai University.
Wang Hao doesn't have so many ideas. He did think about inviting Birkar to come to Xihai University, but he hasn't reached that level yet.
For the time being, he is just doing research with Bill Carr.
Birkar felt quite good when he came to Xihai University. He originally thought that he would be warmly welcomed after arriving at the university.
He's not used to that kind of scene.
Most pure scholars don't like complicated social scenes. He just comes to discuss issues with Wang Hao, that's all.
Now Birkar feels very relaxed. There is no warm reception and no reporters come to interview. It is the best environment to stay and discuss with Wang Hao freely.
At the same time, Birkar was also very interested in Wang Hao's research.
When contacted by international reports, he was very shocked. He did not expect that Wang Hao's research would be so relevant.
There are many reports in the news now, with keywords including "antigravity", "superconducting mechanism", "Wang's geometry" and so on.
Birkar knew that the research they were doing must be related to the underlying mathematical logic of the superconducting mechanism, and there was a direct relationship, which was the basis for subsequent research.
This made Bill Carr feel very strange.
He has been doing research on algebraic geometry, focusing on minimal model problems in high-dimensional birational geometry.
The titles of these problems alone are incomprehensible to most people, and they even belong to a small category in mathematical research. The problems he studied were only raised in the past twenty years. His work can be simply understood as "minimum model systems"
"The construction of.
This type of research belongs to the basic work in the foundation of mathematics, and there is almost no E-relation of any nature with the application.
What Bill Carr never imagined was that his work would one day be linked to research and development in the field of cutting-edge technology.
Superconductivity, antigravity, what attractive words!
This is a new experience for Bill Carr, so he is very interested.
Just like Bill Carr feels, the news is full of news related to antigravity and superconductivity.
Studying the theoretical mechanism of superconductivity based on AC gravity experiments has become a craze in the international physics community.
The impact of the news release continues to grow.
Many scholars carefully studied the public information and also studied the theoretical information disclosed by Wang Hao. They soon realized that the research was actually divided into two directions.
One direction is to conduct physical experiments on exchange of gravity to conduct research on condensed matter physics.
Another direction is the construction of mathematical theories to support research.
“In this research, mathematical construction is more important than physical experiments.” Professor Aksay Venkatesh of the Institute for Advanced Study in Princeton said in an interview.
Aksahi Venkatesh is the Austrian-Indian Mathematics Prize. His main research areas include counting, automorphic equal distribution problems, number theory, and topology.
His research fields are very broad, and he has achieved high results in each field.
Because of this, he won the Fields Medal for his comprehensive achievements in analytic number theory, topology, and representation theory.
Aksay Venkatesh said, "I studied Wang's geometry carefully and found that its definition is very simple, which also leads to insufficient breadth of graphics and limited coverage."
"Wang's geometry can only be used to represent the microscopic form composed of a single element."
"If the number of elements becomes two, that is, the simplest compound, the breadth of Wang's geometry will be insufficient, that is, this geometric form cannot be used to express or define the microscopic form composed of two or more elements.
structure."
"So how to express the microscopic form composed of two or more elements? This is an exponentially increasing problem."
"Wang's geometry is said to be simple, but it is only relatively speaking, so we need a new method to define more complex compositions."
"This is the mathematical problem involved in experimental research"
What Aksay Venkatesh said in the interview was widely recognized.
Now many mathematicians and physicists have studied Wang Hao's published theory, and they also know the direction of subsequent research.
Aksay Venkatesh directly pointed out the problem and what mathematicians should do in research. This also found the direction for many mathematicians.
Mason Mathematical Sciences Laboratory.
Wang Hao also talked about this issue, "I hope to develop a new topological definition to cover all microscopic forms."
"So we need to make a new topology, which I call a semi-topology. It has some properties of topology, but the other part does not meet the mainstream definition."
"It's like a one-way topology. For example, it has the concept of infinite length. For example, it has the concept of distance in a special two-dimensional space."
This is a study on the definition of the internal microscopic morphology of a material in its conductive state.
What sounds like physical research is actually pure mathematics.
Because they do not consider physical problems during the research process, they only establish mathematical rules, and then there will be corresponding rules and explanations based on the problems.
Any physics is based on mathematical rules, and any physics also relies on mathematical means to understand.
This is the relationship between mathematics and physics.
The school still entertained Birkar, but it did not directly disturb him and only arranged his accommodation and food.
Wang Hao did research with Bill Carr and Lin Bohan.
They are complementary.
There are generally two modes of cooperation in mathematics. One is that everyone knows different knowledge, so they can complement each other's knowledge; the other is that everyone knows the knowledge, but their thinking angles may be different.
The cooperation model of three people belongs to the former.
Lin Bohan has a deeper understanding of topology; Bill Carr is an expert in algebraic geometry.
Wang Hao is a comprehensive expert. He knows something about all subjects, but is not proficient in algebraic geometry and topology. He leads the direction of research and has some unique insights in any field.
When encountering a certain type of problem, Lin Bohan and Bill Carr first expressed their opinions, and then Wang Hao made supplements and follow-up analysis.
This is how research progresses step by step.
They do research together every day, and it feels like there is progress every day.
This feeling of progress every day made the three of them immersed in it and couldn't extricate themselves.
A week passed quickly.
The university in the capital called to show concern for Birkar, and it was Qiu Chengwen who called. He knew that Birkar went to Xihai University, but he didn't expect that it would take so long to go there.
Qiu Chengwen began to worry.
To be continued...