From University Lecturer to Chief Academician

Chapter 237 Beyond the Nobel-level achievements, Wang Hao: Algebraic geometry will become the hottes

International media are reporting on the new findings of the University of Chicago's Superconducting Experiment Group.

There have also been many reports in the country.

In the eyes of scholars in all related fields, the observation of the extreme value of the AC gravity field at a temperature greater than the superconducting transition temperature is definitely a major discovery in the research field of AC gravity and superconducting mechanism.

The significance of this discovery is very large.

On the one hand is AC gravity, that is, research related to anti-gravity. Since the extreme value of the AC gravity field can be observed at a temperature greater than the superconducting transition temperature, will it be possible to manufacture a AC gravitational field without superconducting state support?

If it is possible to create an AC gravity field at room temperature, the application will definitely become very extensive.

On the other hand is the study of the mechanism of superconductivity.

In this field of research, China has already surpassed the international level, and new discoveries are likely to lead to breakthroughs in research in related fields, and thus reach new heights.

The higher authorities are very concerned about the above two points.

Zhou Minhua and Wu Hui also came here for this purpose. They didn't expect that Wang Hao didn't care at all, and they also mentioned that they could easily reproduce the experiment, and even surpass it easily.

Wu Hui was incredulous, "Professor Wang, are you kidding me? Can this experiment be easily replicated? Can it surpass it? They didn't disclose the specific composition of the mixed gas in their research, right?"

Zhou Minhua also kept looking at Wang Hao.

Wang Hao said with a smile, "Of course I'm not joking. In fact, the results they released are good news for my research, and they are also very important."

He said seriously, "Director Zhou, Academician Wu, you should know why we published the research in the first place, right?"

"Our purpose is to allow everyone to study together. Because in this field, we need to invest a lot of money and time to study it alone, and there may not be results."

"Only when the whole world studies together can we make new discoveries and discoveries we want to see."

"Now what the University of Chicago discovers is what I've always wanted to see."

"Although the results they released are only about mixed gases, they also show the composition of the main elements, which is enough."

After Wang Hao finished speaking, he added, "In the research of AC gravity, you don't have to worry, what they say is greater than the superconducting transition temperature, it won't be too 'big', under normal circumstances it should only be two degrees, or less .”

"The reason why it can exceed five degrees is only because of the special environment of super pressure."

"This discovery is of little significance for the study of AC gravity, but it can be said to be decisive for the study of the superconducting mechanism."

Wang Hao explained a lot in succession.

Wu Hui and Zhou Minhua still didn't understand, but knowing that Wang Hao didn't care about the results, it was enough to easily reproduce the experiment.

After a group of people came out, Liu Yunli took them to the superconducting experimental base belonging to Factory 244, a hundred kilometers away.

On the way, Liu Yunli also helped to explain, "Actually, I didn't worry at all when I heard the news. Professor Wang said before that we have to wait for an important discovery."

"This discovery detects the highest value of the AC gravitational field strength just before the superconducting transition temperature."

Although Wang Hao had already heard it, Wu Hui and Zhou Minhua were still surprised to hear it from other people.

Zhou Minhua asked, "In other words, Professor Wang's research is waiting for this news?"

"right!"

Liu Yun nodded vigorously, "Now that there is news, and the other party has also announced the information of the main elements, I believe that Professor Wang's research will make great progress."

He spoke with great confidence.

Zhou Minhua and Wu Hui also looked forward to the big progress in the research of gravity and superconducting mechanism?

What is it?

...

Wang Hao's research has indeed made great progress, and what he has been waiting for is this news.

Previous research has been stuck on the demonstration of the gap in the microscopic form, while the research at the University of Chicago announced the main elemental composition of the mixed gas.

This is enough.

He can perfect the mathematical structure of the gap part by substituting the main element components.

Some elements are definitely meaningless, and some elements will play a key role.

Because the relevant calculations are very complicated, it is impossible for him to bring in all the elements to calculate, and the combination of elements is different, and there are many forms that can be formed.

Now you only need to complete the rest of the mathematical work through relatively simple calculations.

Looking at the inspiration value on the system task, Wang Hao also knew that his research had been completed.

【Task 2】

【Research Project Name: Construction of a unidirectional semi-topological system (difficulty: S). 】

[Inspiration value: 103. 】

He immediately consumed 100 inspiration points, and the information in his brain immediately formed a pathway.

Wang Hao started the framing work of the final gap.

In the final part of the mathematical structure of the gap, the first step is to make calculations based on the given elements, and then determine the combination of elements that meet the overall definition.

This step is the most important.

Afterwards, the geometric structure of the notch part can be described sideways according to the combination of elements that meet the definition, and this part of the work still needs other people to complete it together.

Wang Hao can also complete it himself, but his research on algebraic geometry and topology is not so in-depth, and the work he completes may be somewhat incomplete.

He still hopes to improve as much as possible.

Therefore, he immediately reconvened everyone to do the final finishing work together, and then to write papers and research reports, which still required everyone to work together for a long time.

at the same time.

Birkar was moaning in the office. He had been back to Shuimu University for a while, only to discover the previous problem again.

Simply put, there is no inspiration whatsoever.

Research, pure mathematics research, needs inspiration very much. While doing semi-topological research with Wang Hao, he also thinks about his own research. Occasionally, he will have some inspiration, but every time he returns to Shuimu University, the inspiration It seems that they have all gone away from themselves.

This made Bill Carr feel very depressed.

So every day after his teaching work, he simply went to the mathematics center to find other people to discuss problems, hoping to get some inspiration from the discussions.

Bill Carr thought very simply, since he would be inspired when working with Wang Hao, might he also be inspired when working with other people?

He thought so, and he did so.

Qiu Chengwen was also very happy to see that Birkar kept coming to the Mathematical Center. Birkar had worked at Xihai University for a month before, and after returning to Shuimu University, he finally felt at ease to do teaching and scientific research.

He finally put his heart back into his stomach.

"It seems that Kachel still prefers the environment of Shuimu University." Qiu Chengwen thought so, and discussed a few words with Birkar in the past. He is a top expert in differential geometry and mathematical physics, and has a certain dabble in algebraic geometry.

When talking about research issues with Birkar, Qiu Chengwen found that Birkar was moaning all the time, which could even be understood as dissatisfaction with discussing with him.

Qiu Chengwen doesn't quite understand this emotion, but he knows it must be because the research has not progressed.

He said comfortingly, "Katchel, don't worry too much about your research, you are still very young."

Birkar pursed his lips vigorously, "Compared to Wang Hao, I am already very old."

"...can't be compared with Wang Hao."

Qiu Chengwen said depressedly, "Compared to Wang Hao, no one needs to study mathematics."

"That's right."

Bilkar reluctantly took this as comfort, but he still felt lackluster.

At this time, the phone rang suddenly.

Seeing that it was Wang Hao calling, Bilcar immediately pressed the answer button, only to hear Wang Hao say, "Catcher, come quickly, I already know the last part of the gap, how to finish it!"

"This is really good news!"

Bilkar's mentality has obviously changed. He changed from a little depressed and depressed to full of expectation and joy in an instant, as if he had received a confession from a beautiful girl, and he felt much younger all of a sudden.

The huge change in Bilkar's demeanor made Qiu Chengwen dumbfounded. He asked in a daze, "Wang Hao called?"

"Um."

Bill Carr nodded with joy, "He said that the research has made progress, let me go over and do the final work together."

"Our research is about to be completed!"

"Mr. Qiu, you will see great achievements that shock the world, and you will also see that algebraic geometry will become the hottest mathematics subject!"

"What?"

Qiu Chengwen thought he heard it wrong.

Algebraic geometry is a very small mathematical subject, which has almost no connection with its application. The research of algebraic geometry is equivalent to the research of pure mathematics.

Bill Carr actually said that algebraic geometry will become the hottest mathematics subject?

How can this be!

Bill Carr didn't explain much, but left the math center immediately, went back to pack his things and prepared to leave.

He couldn't wait to fly to Xihai University.

...

With the arrival of Birkar, the semi-topological research quartet reunites.

Wang Hao explained the latest progress, "I was inspired by the research at the University of Chicago, and I demonstrated a combination of elements that fully met our definition criteria."

"We can use this to construct the mathematical structure of the gap part of the microscopic shape."

He divided his calculation results into three parts and gave them to Birkar, Lin Bohan and Luo Dayong.

The next job is obvious, that is, everyone should work together to improve the mathematical structure of the gap.

Although the mathematical construction work is complicated and boring, everyone is very excited because they know how important the research in hand is.

As Birkar said, it will be a big achievement that will shock the world.

The very straightforward explanation is that after they have completed the study of the semi-topology of the microscopic form, they can use this to calculate the corresponding microscopic geometric form of the combination of two elements.

Then, based on the research results, like the application of the law of superconductivity, the superconducting critical temperature of the dual-element substance is calculated.

In other words, the laws of superconductivity are extended to include two-element matter, not just single-element matter.

This result is already world-class.

And that's not all.

If we do a little bit of calculation and analysis, we can calculate the superconducting critical problem corresponding to the three-element material according to their topological system.

Of course, if the three elements are involved, the calculations will be inaccurate and complex analysis is required, but as long as it is "possible", it is enough to shock the world.

Their research results cover all element combinations, even for substances composed of more than one hundred elements, the superconducting critical temperature can be analyzed and calculated theoretically.

To some extent, they have deciphered the correspondence between the superconducting critical temperature and the composition of the material elements.

The only thing is that the calculation process will be very complicated, and it also involves mathematical analysis problems, so there cannot be a little deviation in the middle.

Its difficulty can be illustrated with an example.

For example, a certain three-element substance requires more than a dozen top mathematicians in related fields to calculate and analyze together for several months or more than a year.

Just the combination of two elements also requires several mathematicians to calculate together for more than a week.

The increase in the number of elements will increase the computational difficulty exponentially.

Not to mention four elements and five elements.

The crux of the problem is that it is very difficult for computer-aided calculations to be done because complex mathematical analysis is involved.

The follow-up may simplify the calculation process, but it still requires many mathematicians to control.

Of course, the researchers involved in the research are not too concerned about how complicated the follow-up calculations are. They are more pleased with their results, because the level of the results can be understood as "far beyond the mathematical achievements of the Nobel Prize in Physics."

In other words, there's nothing wrong with taking a Fields.

Birkar also hopes to win the Nobel Prize in Physics. As a Fields laureate, especially a Fields laureate who studies algebraic geometry, Nobel physicists have almost nothing to do with him.

Now he finds that he has a chance to win this award. As long as the results are made public, their research group may win the Nobel Prize in Physics.

Of course, the number of people selected will not be too many, and the main person is Wang Hao, but in any case, he, Lin Bohan and Luo Dayong are all participants.

Lin Bohan and Luo Dayong were even more looking forward to it.

They never imagined that one day they would be able to participate in such a major achievement.

Although they are only auxiliary researchers, is it possible to win an international award for such a major achievement?

Instead of asking for Fields and Nobel, a small prize in other fields is also fine!

...

When the research team was trying to do the final finishing work, Wang Hao also wrote an explanatory report to his superiors.

As the main member of the research team, Wang Hao guided and controlled the research process throughout the whole process. His understanding of research is much stronger than the other three.

Both Lin Bohan and Luo Dayong only understood a certain aspect of research.

Birkar's understanding is relatively deeper, and the degree of participation is higher than the other two, but his understanding is relatively sideways, and he only knows the final result.

Wang Hao's understanding is different.

In the course of his research, he has already calculated a microscopic three-element combination that best fits the semi-topological form, and named it "W1 type".

When a certain substance has a 'W1-type' element combination, it can greatly increase the critical temperature of superconductivity. Under normal pressure, the highest temperature can be close to 'minus 50 degrees Celsius', which is '223.15K'.

Because it is likely to involve a wide range of applications in the future, Wang Hao did not tell other people in the research team, but made a report to his superiors. The form was reported to the Science and Industry Bureau.

After handing over the report to relevant personnel and making a series of special reminders, Wang Hao breathed a sigh of relief and felt a lot of emotion in his heart.

I have been working on the theoretical issue of the superconducting mechanism before, but now it can be said that to a certain extent, the relationship between the superconducting critical temperature and the composition of matter has been cracked, and the research on high-temperature superconducting materials can already be realized.

There are many researches on high-temperature superconducting materials in the world, but most of the achievements are only in the range of tens of K.

Although some research groups claim to have produced superconducting materials at 100K or even at room temperature, in fact, those studies have no application value.

Either, pure liquefied gas molecules or organic materials.

Or, it is the realization of the ultra-high pressure state.

The former is that the current intensity it can carry is too low and has no application value at all.

The latter is conventionally unable to manufacture ultra-high pressure environments.

Superconducting materials that can be used in industry can be simply understood as must contain metal components, and superconducting materials containing metal components will have a high upper limit of critical current.

Because of this, iron-based superconducting materials will become a hot direction for high-temperature superconducting materials.

Now that we have the 'W1-type' combination information, we can use it to study the corresponding high-temperature superconducting materials, which can greatly increase the critical temperature of iron-based and copper-based superconducting materials.

"One hundred K?"

"One hundred and fifty thousand?"

"Or higher?"

Wang Hao was also looking forward to thinking about it.

Birkar came out of the office, stretched his waist long, and walked over with a smile when he saw Wang Hao, and said, "Wang Hao, this research will greatly enhance the status of algebraic geometry."

"In addition, I don't have to think about other things. I can only do this research in the future."

His voice was full of emotion and anticipation.

The research work that Bilkar refers to is the simplification of the research they do.

The most complicated problem in the middle is the problem of algebraic geometry. Some morphological expressions can be simplified by algebraic equations, which will greatly improve the efficiency of calculation.

In addition, the corresponding calculation work can be directly completed by professionals in algebraic geometry.

Mathematicians in other disciplines may encounter the problem of insufficient knowledge if they want to calculate the superconducting critical temperature of element combinations based on research results.

Wang Hao said, "It seems that you like this research very much."

"certainly."

Birkar said expectantly, "If I spend the next few decades doing this research, I may become a very famous person and leave a strong mark in the field of human technological development."

"Congratulations in advance."

"Ha ha."

Bill Karl laughed.

Wang Hao suddenly became more serious. He said, "Katchel, have you ever thought that if you continue to study in depth, you may become a strategic figure."

"Strategic level?" Bill Karl thought for a while.

"right."

Wang Hao said, "As long as our results are published, experts in algebraic geometry will become very sought-after. If you continue to study in depth, your life may be affected..."

Bill Karl was silent for a moment.

He understood exactly what Wang Hao was talking about. Just like his hometown Yilang, he was always being targeted internationally. He would become an expert in the field of superconductivity research, and superconductivity would definitely lead to technological breakthroughs. If you are an expert in the field, there will definitely be a 'country'.

Bill Carr fell silent.

Wang Hao didn't bother Bilkar. When faced with life choices, it's better to think and make decisions by yourself.

If Birkar did not continue to do research because of this, or simply immigrated to other countries, he would not persuade the other party to change their minds.

Everyone has the right to choose the future.

His own choice is to contribute to the development of science and technology in the motherland, and he will definitely continue to invest in research in superconducting related fields.

The next step is to prepare.

Wang Hao was very clear about the impact of the publication of the research results. He approached the principal, Yan Fu, and explained seriously, "As a member of Xihai University, I am very concerned about the development of the school."

"Then what?"

Yan Fu was directly approached, and he was obviously a little dazed when he heard such a sentence.

"The Faculty of Science and the Department of Mathematics should first focus on the development of one subject, algebraic geometry."

Wang Hao said, "The opportunity is coming soon, if you miss it, it will be gone."

"Principal Yan, I have a suggestion for the school. Now, immediately, immediately, regardless of the cost, recruit those talents in the field of algebraic geometry to come to the school!"

"Give the best treatment, let them come..."

Wang Hao finished speaking seriously.

He just gave the school a suggestion. As for whether to follow it, it still depends on the school's decision.

Yan Fu was stunned for a long time, then looked at Wang Hao seriously and asked, "Professor Wang, are you sure?"

Wang Hao nodded, "I'm very sure."

Yan Fu took a deep breath.

He knew that Wang Hao wouldn't just come here to make a joke. Since he said it directly, there must be some reason, probably related to the research results.

So, gouging?

Algebraic geometry?

If you only focus on talents in one subject area, Xihai University can still do it, and it is only algebraic geometry. Mathematics is a niche and less valued subject.

Regardless of cost?

That should be able to dig a lot of talents, right?

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