Xihai University has become the focus of domestic universities, and the news that they have recruited a large number of algebraic geometry talents in a short period of time has even been put on the Internet, causing a heated discussion in public opinion.

Many people have discussed that Seohai University "got the inside information in advance, which means that the competition is very unfair."

In the end, Wang Hao sent a message, which turned the trend of the topic into simple gossip, and the message he sent was only a few words, "I am a teacher at Xihai University." ”

In a word, the explanation is clear.

Wang Hao is a faculty member of Xihai University, and it is natural for the university to report if there are results, and it is normal for Xihai University to get the news in advance.

In addition, his research has greatly elevated the status of algebraic geometry scholars and broadened the scope of employment for talents in this field, creating new fields rather than competing with other universities.

Now the depression of other colleges and universities can only be understood as envy, jealousy and hatred, and if they have similar results, it is impossible to tell other colleges and universities publicly.

There is also the question of whether the results are correct or not.

What if the research is wrong?

If the news is revealed in advance, it will definitely be very embarrassing at that time, and normally, it is impossible for the research to be revealed in advance before it is published.

Other colleges and universities should be envious of Wang Hao at Xihai University, rather than envying them for getting the news in advance and recruiting a large number of talents in algebra geometry.

However, the talents who have been recruited still need to be appeased, and they have just signed a contract with Xihai University, and they know that their value has suddenly doubled, and their mentality will definitely be affected.

The Faculty of Science of Seohai University also organized an internal meeting.

The algebraic geometry talents who had just been recruited into the school were all in attendance.

At the meeting, Wang Hao announced a piece of news, which also stabilized everyone's mentality, "Now I will say a message, don't disclose it, because it's not sure yet."

Although Wang Hao said that he was not sure, it had actually been determined, but it had not been announced.

He continued, "The Joint Science and Technology Office of Beijiang Province is preparing to establish a large-scale research center for high-temperature superconducting materials in Xihai City. ”

"The faculty and staff of Xihai University have the opportunity to work in the research center and participate in the research and development of high-temperature superconducting materials."

"In the future, we will also establish a high-temperature superconducting materials company affiliated to the Science and Technology Department, that is, invest in the creation of a large-scale enterprise to support the development of superconducting technology."

"Whether it's a research center or a superconducting company, it's all based on our research."

"Therefore, in both aspects, the faculty and staff of Xihai University are the priority to participate in ......"

Wang Hao said carefully.

This is the news that has been confirmed, that is, around the combination of "M1-type" elements provided by him, to expand the research on high-temperature superconducting materials.

Because there is already a basic theoretical support, the research on new high-temperature superconducting materials does not rely on a large number of experiments, and most of the work is theoretical calculation, which requires a lot of talents in the field of algebraic geometry.

Almost all of the algebraic geometry talents recruited by Xihai University have joined the new research.

This is obviously very attractive.

Large-scale research on high-temperature superconducting materials will basically not have financial troubles, and the participants will also get more subsidies, in short, they can make more money.

Scholars, too, have living needs.

They came to Xihai University and got a high placement fee, and it must be very attractive to be able to get a relatively high salary and participate in cutting-edge scientific and technological research.

After the meeting, Wang Hao and Yan Fu walked all the way, and they were also talking about the development of the School of Science.

Xihai University has recruited so many talents in algebraic geometry in one bite, and naturally hopes to develop algebraic geometry as the core discipline in the future.

Some of the algebraic geometry talents they recruit are very good doctoral graduates, and some have already achieved certain results.

However, there is still a gap between them and the world's top experts in algebraic geometry.

At present, there is still a lack of a "leader" in the field of algebraic geometry in Xihai University, and then there is a real leader, the faculty of algebraic geometry

noodles can be spelled with Capital University.

So where do the leaders come from?

"Kachel"!

Wang Hao immediately thought of Bill Carr, he always hoped that Bill Carl would come to work at Xihai University, but he felt that he couldn't open his mouth.

Compared with the environment of Mizuki University, the city where Mizuki University is located, Xihai University is indeed much worse.

Wang Hao asked, "President Yan, if Bilkar comes to Xihai University, will the school be able to accommodate it?"

He was referring to issues such as salaries.

In fact, college is like a company, Bill Carr is like a big star in the company, and the big star must get a different salary than ordinary employees.

However, the salary of big stars is too high, which may also cause dissatisfaction among ordinary employees, and it will also bring some negative pressure.

Yan Fu thought about it, nodded and said, "No matter what pressure there is, I will withstand it!"

"That's good."

Wang Hao nodded, he felt that it was time to find an opportunity to probe Bilkar's tone.

……

Soon.

"New Advances in Mathematics" has released a new issue of content, with three papers on it, which has been publicized in advance.

These include Luo Dayong's Architectural Logic of Complex Geometry Splitting and Reduction, Bierkar's Repeated Combination Method for Describing High-Dimensional Node Graphs, and Lin Bohan's Topology to Semi-Topological Definition Tendency.

The main paper on semi-topology, "Semi-topological analysis of microscopic morphology in conductors", can be understood on the basis of understanding the three auxiliary papers.

Some top scholars in the world have understood the content of "Semi-topological Analysis of Microscopic Morphology in Conductors", but it is still very difficult to understand all of them.

"Analysis of the microscopic morphology and semi-topology of the conductor", for the time being, only Wang Hao understands it all, mainly because the content involved is too complex and profound, and there are too many fields of knowledge involved.

After the content of the paper has been determined by some institutions, many scholars realize the complexity and importance of the research, and they will want to conduct follow-up research, and find that it is necessary to form a team.

It can't be just a small team, because the research involves many disciplines, and even includes the content related to superconductivity experiments, and it is very difficult to understand all of them.

At this time, many scholars realized Wang Hao's power.

It is not easy for a mathematician to win a Fields Medal.

However, the difficulty of winning the Fields Medal is definitely not to organize mathematicians from different disciplines to complete a multidisciplinary mixed frontier research together.

The organizers must have a good understanding of each discipline, and be able to link several disciplines together, and also control the main direction of the research, and then have certain results, which is absolutely quite remarkable.

In mathematical research, algebraic geometry is algebraic geometry, differential equations are differential equations, and number theory is number theory.

Don't say that too many disciplines are mixed together, even just two disciplines can make research very complicated.

So how did Wang Hao do it?

Other scholars were very curious, and there was also speculation that Wang Hao knew each discipline very well, whether it was algebraic geometry or topology, he had a very in-depth study in order to connect the various disciplines together.

This claim was immediately refuted.

The problem is --

"If Wang Hao is very proficient in every subject, why doesn't he do his own research, and why does he need to collaborate with others?"

"In addition, Wang Hao does not have the world's top achievements in algebraic geometry and topology."

"The fact that each of his collaborators was able to produce a top-notch mathematical study shows that they have also contributed a lot to the research."

Accounts differ and opinions vary.

Of course, most scholars don't care about how the research is done, or whether they can fully understand the content of the research, they just need to know that the content is correct.

Many institutions have begun to study the superconducting critical temperature of two-element combinations based on the new results.

It's a whole new way

Direction, an unexplored direction, and probably a very valuable one.

When they were ready to do so, they found that they needed a large number of experts in algebraic geometry to participate in the work, and scholars in the field of algebraic geometry quickly became scarce.

Algebraic geometry is originally a small field, let alone engaged in the study of algebraic geometry, even doctoral students with algebraic geometry backgrounds are a minority.

In the past, the number of people trained was very small, and when the number of people in demand for research was very large, it was natural that talents in the field became scarce.

Soon a very strange phenomenon occurred in the world, for example, a university engaged in algebraic geometry lecture, suddenly promoted to associate professor, professor, as if afraid of being poached by other universities and institutions.

Some lecturers in the field of algebraic geometry are invited by other institutions to participate in research work.

In other words, for general universities, they can find a doctoral supervisor in algebraic geometry, and some universities do not even set up a master's and doctoral direction in this direction.

In short, scholars working in the field of algebraic geometry have doubled in value.

Even in the market, it has become in short supply, because many material-related companies have begun to invest in relevant research.

Now everyone knows that superconducting technology is likely to usher in a take-off, and the top large enterprises will naturally have to make a layout in advance, even if a lot of investment may be wasted, but it is much stronger than because there is no investment, and the follow-up loss of competitiveness is much stronger.

With a heavyweight position in the field of algebraic geometry, Birkar has become very "sought-after".

Fields winners, of course, are highly sought-after, but Bill Carr has never felt the enthusiasm he has now, and he has received a large number of invitations from top foreign institutions.

But Bilkar turned it all down, because he had found a clear direction – to simplify the study.

The semi-topological research they did together was very complex, especially involving the part of algebraic representation of geometry, which was also the main reason for the complexity of the calculations.

Simplifying the research results is the main direction of future research.

This research can be done for a lifetime.

Birkar did this research after much thought, because he was no longer young and it was difficult to do a new research on his own and get results.

In fact, the research in this direction is also an expansion of his new achievements.

"Repeated Combination Method for Describing High-Dimensional Node Figures", which is simply understood, is to use geometric figures to reverse algebraic equations, but the content is much more complex.

If we can continue to conduct in-depth research and simplify the process of "repeated combination", we can simplify the main research, and then the subsequent calculations will definitely be relatively simpler.

This is not just a mathematical advance, but also a progress in superconducting physics.

One progress, two directions of gains, research is naturally very valuable.

Bilkar also enjoyed this kind of research, he did what he loved, so naturally he didn't think about anything else.

This study also appears to be very high, large, and high.

At present, he is the only one in the world who is qualified to continue his research for the time being, because he is an important participant in the main research, and no one knows better than him about the repeated combination of algebraic equations for graph transformation.

By this time, Bilkar had returned to Mizuki University.

He made up his mind to continue his research, and even if the new results had only just been published, he began to think about it in his head.

After a long time, Birkar found himself lacking in inspiration, and when he looked at his "Repeated Combination Method for Describing High-Dimensional Node Patterns", he had an incredible amazement, "I actually researched this?" “

"Why was I so genius at the time? And now it feels like it's not easy to understand? ”

"Where did my inspiration go?"

"Or rather, it's because of Wang Hao and the real genius that I can think of a lot of things, and the ...... around

Bilkar looked around blankly and found that there was no one who could communicate with him.

He really took Qiu Chengwen as a friend, otherwise he would not have insisted on coming to work at Shuimu University, and Qiu Chengwen's main direction, differential geometry, is also related to algebraic geometry

Sex.

Bilkar went to Qiu Chengwen and discussed some recurring issues with Qiu Chengwen, and finally aroused a series of admiration from Qiu Chengwen, "Your research is really exquisite." ”

"It's easy to derive geometry from algebraic equations, but it's incredible to deduce algebraic equations from geometry!"

Qiu Chengwen sighed with admiration.

Birkar felt very disappointed, because he wanted to discuss the problem with Qiu Chengwen, but Qiu Chengwen was only amazed and couldn't say anything.

Later, he couldn't help but ask, "Mr. Qiu, we are friends, right?"

"Of course."

Qiu Chengwen affirmed, "Although I don't have a twenty-year age gap, I have always treated you as a friend, a very good friend.

"Me too."

Bill Karl nodded firmly, "Then can you give me an opinion I was thinking about whether I should go to work at Seasea University recently......"

Qiu Chengwen was directly stunned.

Bill Karl is friends with him, so I asked him if it was time to leave Mizuki University and work at Seokai University

So what kind of advice should he give?

……

Seohai University.

Wang Hao was in his office in an exclusive interview with a reporter from the Central Committee of the Communist Party of China, in which he talked about the latest achievements, and then expressed his views on several issues of public concern.

"So far, this research can be said to have solved the mystery of the critical temperature of superconductivity to a certain extent, and our research has correlated the critical temperature with the composition of the elements, but the calculation is relatively complicated."

"The next step is not just what we can do, but the whole world is to study together, and the goal is to study all the combinations of two elements, corresponding to the superconducting critical temperature.

"This is an important step in research.

"Theoretically, the higher the number of elements, the higher the superconducting critical temperature, but the more complex the calculations become."

"There is a certain correlation between the combination of two elements and the combination of three elements, such as hydrogen and oxygen, and the two elements together can calculate the corresponding superconducting critical temperature."

"If we add a carbon element to it, then we can study the superconducting critical temperature corresponding to the combination of carbon, hydrogen and oxygen based on the three combinations of carbon and hydrogen, oxygen and hydrogen, and hydrogen and oxygen.

"I think the next step should be to carry out more international cooperation, establish a database of superconducting element combinations, and share the research results, because this kind of research cannot be done by any one institution, and data must be shared between them."

After Wang Hao's brief introduction, the reporter asked how long it would take to make a breakthrough in superconducting material technology.

That's what the public cares about.

Ordinary people naturally don't care about any theoretical research, they care about whether superconducting material technology can make a breakthrough and when superconducting technology can be popularized on a large scale.

Wang Hao shook his head and said, "In fact, we are preparing to do research on superconducting materials, and the same is true for many international institutions. ”

"But it is difficult to say when high-temperature superconducting materials can be developed and widely used on a large scale."

"Personally, I think it will take a long time......

The reporter asked, "Can you tell me a specific time?" ”

"Specific ......"

Wang Hao shook his head and smiled, "Your question is a little embarrassing." He thought for a moment and continued, "Okay, then I'll just say that I think it will take at least a year to produce results. ”

He then added, "One year is still too little, two years, expand the time range a little, in case there is no result by then, don't blame me, I mainly do theoretical research."

The reporters were stunned.

A year?

Very long?

He just heard Wang Hao say that it would take ten or eight years, but he heard the figure of one year, and it would only be two years if it was extended.

The reporter tugged at the corners of his mouth and muttered in his heart, "Isn't our concept of time different?" ”

……

In response to such a significant achievement in the field of superconductivity, the Ministry of Science and Technology held an internal meeting

。

Zhao Eunshun presided over the meeting and quickly reached an agreement to establish a research center for high-temperature superconducting materials.

This is also the first truly planned research center for high-temperature superconducting materials.

In the past, the research of high-temperature superconducting materials has been only a project set up by science funds or other scientific research fund departments, rather than establishing a large center to do research.

Now, it is obvious that we are aiming at the latest results, hoping to develop high-temperature superconducting materials that can be truly used in the industrial field.

The Ministry of Science and Technology soon announced the plan.

The public impact of this plan is significant, and it is tantamount to announcing that it will invest heavily in research into superconducting materials that can be used in industry.

Many media interpretations believe that the establishment of an institution specializing in the study of high-temperature superconducting materials is a recognition of new theoretical research by superiors, which can support the development of superconducting materials required for industrial production.

This is also the first step towards the large-scale popularization of superconductivity technology.

Xihai University has become the focus of public opinion again, because the new large institution was established in Xihai City, and there is no doubt that it is Xihai University.

Although the new research center is directly under the jurisdiction of the Science and Technology Department, it must have cooperated with Xihai University the most, and the establishment of Xihai City must also consider Wang Hao, considering that Xihai University is the birthplace of the theory, and after the establishment of the research center, Xihai University is undoubtedly the beneficiary, and it is likely to be an important participant.

At the same time, Wang Hao also received a piece of good news.

For the new year's academician co-election, the list of candidates has been released.

Among them is his name.

He was nominated and recommended by several academicians, as well as by several institutions, including Xihai University, the Science and Technology Department of Beijiang Province, and even the Science Foundation.

Just from the perspective of the recommended individuals and institutions, Wang Hao was nominated for the co-optation of the Ministry of Mathematics and Physics, which can be said to be expected.

This news even made it to the hot search.

Many people are already looking forward to Wang Hao as an academician, because his achievements and contributions and personal honors are much higher than ordinary academicians.

Wang Hao knew that he had been nominated, but he only had a little expectation, and the title of academician was just the icing on the cake for him.

Now his status in the academic world is much higher than that of ordinary academicians.

Wang Hao is more concerned about the upcoming International Conference on Superconducting Materials and Mechanisms, and he was invited to give a research report and participate in the follow-up work.

The International Conference on Superconducting Materials and Mechanisms is organized by Georg Bednolz and Carl Müller, discoverers of copper-oxide high-temperature superconductors and Nobel laureates in physics, and is held every three years.

In previous years, the conference was not attractive, and it was only similar to an ordinary academic conference, where experts in the field of superconductivity discussed the research of superconductivity mechanism and theory.

In the course of the conference, some public results and academic reports will be published.

This time it's different.

Wang Hao's latest research has directly correlated the critical temperature of superconductivity with the composition of the elements, and his report has attracted international attention, and it is natural that many scholars have come to attend the conference.

When the time comes, there will be a lot of international organizations that will send teams to participate.

In addition, follow-up work is also important.

The National Research Center for Condensed Matter Physics is preparing to take the lead in the establishment of an international superconducting organization, the establishment of which will be announced at the conference.

In the future, we will discuss international cooperation and data sharing.

Because superconducting technology is too important, it is directly related to the competitive development of future science and technology, and the theory is studied and published by China.

China also hopes to lead the newly established superconductivity international organization and control the data related to the progress of superconductivity research, so as to be in an advantageous position in the development of superconductivity technology.

This is certainly not easy to do.

Therefore, there is likely to be a battle of dragons and tigers and verbal wars in the follow-up of the meeting, and it is difficult to say what the specific situation will be.

Wang Hao is not interested in organizing anything, and he does not want to participate in complex, fighting, or medium, but he is very interested in making a report.

Because he's already ready to do research on high-temperature superconducting materials --

[Task 2.]

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[Title of the research project: "M1 type, superconducting materials based on element combinations (difficulty S.") 】

[Inspiration: 0.] 】