International public opinion also quickly spread to China.

In fact, the news was received earlier in China, but because the results have not yet been released, some media have released "gossip" and no one has paid attention to it.

Now that the study has been published, even in the form of an alert, it still attracts a lot of attention, mainly because the results are so shocking.

This is the mystery of superconductivity!

The previous research on the "law of superconductivity" has been very shocking, and the relationship between a single element and the critical temperature of superconductivity has been cracked, and many scholars believe that the next research must have to wait for a long time, not to mention months, years, decades, or even hundreds of years are possible.

At that time, some scholars who understood the content carried out popular science, and the law of superconductivity was further expanded, and the complexity was increased in the form of exponentials.

Few people dared to think that after such a short period of time, Wang Hao would be able to complete the research.

The speed is impressive.

At the same time, many people are also shocked by the results, and domestic public opinion is constantly discussed, mainly around the research field of superconductivity, which is far ahead of the world.

Wang Hao and his team naturally belong to domestic research.

There are a lot of admiring voices in domestic public opinion, "superconductivity represents the foundation for the take-off of science and technology in the next few decades, and this field has taken the lead in China!"

"The follow-up application will definitely be ahead, Wang Hao Dashen has already studied the theory, and the follow-up will involve the application!"

"High-temperature superconducting materials will soon have new breakthroughs, right?"

"According to Wang Hao's latest achievements, you need to sit in the office to calculate, you can know what kind of material, the critical temperature of superconductivity is higher, and superconducting technology may usher in take-off!"

Academics are more concerned with the content of specific papers than public opinion.

Science only published a quick update of the results, but did not have a specific paper, and more scholars want to know how to calculate it.

If the calculation is done like the law of superconductivity, then it will definitely lead the research of high-temperature superconducting materials and achieve leapfrog development.

Not to mention the scholars in the field of physics, scholars in other fields are also concerned about the results.

Because the results themselves are related to superconducting technology, which is considered to be equivalent to nuclear fusion technology, and can lead to earth-shaking changes in human science and technology.

So how far has the research got?

Is it possible to know what kind of materials have the characteristics of high-temperature superconductivity through direct calculations?

Until you see the official paper, these are uncertain.

Mizuki University.

Qiu Chengwen sat in the office of the Mathematics Center, looking at the news report in Science magazine, and felt an incredible feeling in his heart.

When Bill Carl left before, he told him that there would definitely be a big result, but he didn't expect it to be such a big result at all.

"No wonder Kachel has been staying at Westsea University, and it is worth staying for a lifetime to have such an achievement......

Qiu Chengwen thought a little depressed.

If the results are as published in Science magazine, the name of each of the researchers will leave a strong mark on the history of superconducting technology.

Qiu Chengwen even envied Bill Carr, he is indeed a very famous mathematician, and he also won the top Fields Medal, but this achievement is too shocking, and it has far exceeded the level of the Nobel Prize in physics.

When a piece of research can lead to a seismic change in human science and technology, it can no longer be measured by awards.

"It seems that Lin Bohan is right to go to Xihai University, and it is also right for Kachel and Wang Hao to do research together."

"Ah~~"

Qiu Chengwen thought about it and couldn't help sighing.

After Lin Bohan went to Xihai University, he immediately had a series of achievements.

Although most of them are just supporting research and just putting a name on the paper, it is also remarkable to be able to participate in such a major research.

This will definitely affect the senses of others.

For example, people who know Lin Bohan.

There are many people in the Center for Mathematical Sciences who know Lin Bohan, and they will definitely envy the current Lin Bohan.

So would they consider going to Isohai University?

Qiu Chengwen's worries are not unreasonable.

Many scholars in the Center for Mathematical Sciences are very envious of Lin Bohan, and some of them are even more envious of those who do topology research, thinking that they will go to Xihai University, and they will definitely be no worse than Lin Bohan.

The same is true for Bilkal.

After Bilkar joined Mizuki University, he did not have any major research results.

This is actually quite normal.

The research in the field of algebraic geometry is very complex, and some people want to have some results all their lives, even as a Fields winner, it is very difficult to have results, and Birkar and Wang Hao do research together, and they can have such significant results, even if they just hang a second work, it is very remarkable.

For a time, some people in the Center for Mathematical Sciences were impetuous.

At the same time.

Baker Campbell was sitting in his office, reading the latest issue of Science magazine, and he was surprised to see Wang's research, which took up five pages.

It is the first time in decades that the main journal of Science has taken up so many pages in just one of the results bulletins.

Of course, that's not what Campbell cares about.

Campbell is concerned about why Wang's research results appear on the pages of the main journal of Science.

Before, he wondered why he had not received Wang Hao's submission for a long time, but now he knew that Wang Hao had submitted his paper to his competitor Science.

Why?

Why!

How could Science be published so quickly, and doesn't it need to be reviewed?

Campbell realizes that he seems to have been tricked?

He wrote an email to Donald Conedy with anger, but the tone was relatively better, as Donald Conedy was a woman.

Just ask......

Then he received a reply email from Donald Conedy, "Did you say the question you asked last time?"

"I still think that of course Science needs to be reviewed, even if it's a Fields or Nobel laureate, we will do peer review."

"However, you didn't mention Wang Hao's name before."

"Wang Hao is different."

"He is also a Fields winner, but he is unique in the field of superconducting mechanisms. He pioneered the field and his peers are not found in the world. ”

"Do we also have to review the submissions sent by Einstein?"

Campbell was speechless.

He read the email for a long time, but he didn't know how to continue questioning, because what the other party said was very right, and of course Einstein's submission did not need to be reviewed.

Who in the current world of physics can compare with Einstein?

And Wang Hao ......

Wang Hao has created a new system for the research of superconductivity, he is the founder of the system, and there is indeed no peer to speak of, so Wang Hao's research on superconductivity does not need to be reviewed at all.

However, Campbell still felt depressed, and he felt that he was being tricked by a woman.

Wang Hao obviously submitted the article to Nature first, but finally submitted it to Science magazine because of his refusal. With such a major study, Nature missed it in vain.

Campbell felt his heart bleed, and before he could feel the pain, the office door was pushed open.

Magdalina Skipper walked in briskly, and threw the magazine on Campbell's desk, which collided with it with a "bang."

Magdalina said angrily, "Baker! Mr. Campbell! Could you please explain why Wang Hao's research was published in the journal Science?

"Our work email address is recorded, as far as I know, he sent you an email first!"

"Please explain!"

"Otherwise, I have reason to wonder if you are a female cadre of Science? Or are you thinking about working at Ameriken?"

At the door, a group of people watched.

Campbell glanced at the door, and was immediately embarrassed, he quickly said, "Magdalina, listen to me. ”

"Please call me Ms. Skipper!"

"Well, Ms. Skipper, I just thought about the judging ......"

"Judges? Does Wang's research still need to be reviewed? Your mind is as stupid as a pig!" Magdalina said angrily, "Mr. Campbell, I officially inform you that you have been demoted. ”

"If you want to keep your job, start all over again as a reviewer!"

"If you are not satisfied, you can go to the union, I have evidence of your email exchange with Conidy's cousin, this decision is still based on your work for more than ten years, otherwise you will be directly fired!"

"It's hard to imagine......"

"You're going to be fascinated by that old woman who is almost sixty, I wonder if you have some disgusting peculiar fetishes......"

"Or have you long since lost your basic functions and are just looking for a kind of solace akin to your mother?"

……

A week later.

Science Physics published Wang's latest research paper.

In a short period of time after the latest issue of Science Physics was released, they received a large number of new orders, the traffic to the official website increased significantly, and the research paper "Analysis of the Microscopic Morphology of Semi-Topology in Conductors" received a large number of downloads in a short period of time.

For a moment, mathematicians and physicists all over the world seemed to be quiet.

There are still vigorous reports in the media, but no experts are standing up to explain, and many top scholars have studied the content of "Semi-topological Analysis of Microscopic Morphology in Conductors".

The content of "Semi-topological Analysis of Microscopic Morphology in Conductors" is very complex, and to understand all the contents, you need to know function theory, geometry, algebraic geometry, topology, complexity theory and other aspects.

It is difficult for the average scholar to have so many fields of knowledge at the same time.

Therefore, most scholars choose not to understand the whole content, but to study what the content of the paper is, how extensive the extension of the superconductivity law is, and how complex the calculation is.

Soon they were shocked.

The specific content of the paper is the same as the bulletin in the journal Science, which is to extend the law of superconductivity to the entire range of materials.

According to the paper, the critical temperature of superconductivity can be calculated for any material, but the lower the elemental content, the simpler the calculation.

The double element is certainly the easiest,

So some teams started working on the two-element content, but they found that the calculation was still very complex.

Of course, as long as you can do calculations, it doesn't matter if it's more complicated.

Previously, Stanford University set up a team to study and expand the coverage of the law of superconductivity, but they had only just formed a team, and Wang Hao had already completed the research before they even raised funds.

Now their team happens to work together on Wang Hao's results, and their research speed is also the fastest, it only took four days to verify a metal oxide material.

They tested the critical temperature of superconductivity and proved that the calculated and test results were very similar, with a difference of only 0.1K.

The results speak for themselves.

Professor Brooks, the team leader at Stanford University, was interviewed about the validation results, "We did a verification and proved that the error was very small or even negligible, because the error was not necessarily computational, but also experimental. “

"Whether this study is correct or not, we are not 100% sure, but it is basically accurate in terms of two elements, and it may be accurate to expand to three, four, or more elements."

"Because the research is very complex, we don't have a way to make a direct judgment."

"But in any case, this achievement is infinitely close to cracking the superconducting mechanism, and our whole team is very surprised, it seems to have cracked the mystery of the universe and the mystery of the gods."

"It's a pity that the calculation method is very complicated, and it only took our whole team four days to calculate the two elements."

"As the number of elements increases, the computational complexity increases exponentially, and the exponents I'm talking about aren't squared, maybe cubic, powerless 4 or even more."

"We're at the beginning

Step judgment, the simplest combination of three elements, also takes several months to complete. “

"Unless the calculation method can be simplified on a large scale in the future, the combination of the four elements will be almost impossible to calculate."

Brooks said with regret written all over his face.

Because it is only possible to calculate the critical temperature of superconductivity of two elements, and the critical temperature of two-element superconductivity is very low, it is basically impossible to achieve high-temperature superconductivity, that is, it is unlikely to exceed 30K.

Soon.

Schindler James, an expert at the University of Oxford, was also interviewed by reporters, and they also judged the correctness of a dual combination.

Schindler-James acknowledged the results of the study, and was as amazed as Brooks, and then spoke of the computational problem, "The calculation of the critical temperature of superconductivity in relation to the combination of elements is mainly based on the methods of algebraic geometry and mathematical analysis. ”

"I believe that this research can be simplified to a certain extent in the future, but it will still require mathematicians who are proficient in algebraic geometry to complete it."

"In fact, it's like solving an equation, you only need to use the numerical method to calculate, but the calculation process is very complicated."

"I think there are two most important points in this research, in terms of application, he has solved the mystery of the critical temperature of superconductivity to a certain extent."

"Academically, he linked algebraic geometry, topology, and physics."

"Especially algebraic geometry."

"The general perception in the mathematical community is that algebraic geometry is pure mathematics and has little to do with applications."

"After this research, algebraic geometry may become applied mathematics, which greatly enhances the status of algebraic geometry, and the future research of superconducting materials will definitely require a large number of algebraic geometry experts."

The reaction at home is slightly different from that abroad.

China has absolute trust in Wang Hao, and Wang Hao's paper has been submitted before publication and has been verified by experiments, so there is no need to verify it at all.

Public opinion in China is still dominated by amazement and excitement, and at the same time, the reaction of various colleges and universities is somewhat strange.

They felt something was wrong.

Many domestic scholars have studied Wang Hao's latest achievements, especially the calculation of the superconducting critical temperature of two elements, and found that talents in the field of algebraic geometry are necessary.

Because there are many aspects of algebraic geometry involved in the study, even if the research content is simplified in the future, it will definitely need to be completed by experts in the field of algebraic geometry.

Many colleges and universities suddenly thought of Xihai University.

Previously, Phil University recruited a large number of talents in algebraic geometry, and they thought that it was to create a scientific research environment for algebraic geometry and pave the way for Bilkar to go to Seohai University.

Now they find themselves thinking too simply!

Xihai University is doing what is the foreshadowing, they are purely because of first-hand information, they immediately recruited a large number of talents in the field of algebraic geometry.

Algebraic geometry is a very niche field, and talent is concentrated in a few leading universities.

For example, Capital University, Mizuki University, Donggang University, etc.

Almost all of these universities have talents in the field of algebraic geometry poached.

Now seeing Wang Hao's published results, they all have an urge to scold their mothers.

For example, Gao Zhenming.

Previously, he was worried that his excellent disciple Zhang He, because he could not stay at Capital University to work, would probably give up the study of algebraic geometry in the future, and then he suggested that Zhang He go to Xihai University.

Xihai University quickly signed Zhang He, and the speed was really shocking.

Gao Zhenming was still happy for Zhang He, but now he only had the urge to scold his mother, and he had the idea of reporting Xihai University.

If it is placed in the securities exchange, the practice of Seohai University is an absolutely illegal insider trading.

Gao Zhenming thought that Zhang He went to Xihai University, and he felt that his heart was dripping blood, even in the whole country, or even in the world, Zhang He is also a very good talent, but because of the algebra geometry he learned, it is difficult to find a stable job in the university.

There are many people who have similar senses to Gao Zhenming.

Mizuki University was also poached, and Qiu Chengwen personally recommended it

In the future, he will establish a mathematical science center, and he will also hope that the scholars in it will have a good future in the future.

When he learned about the latest policy of Hopewell University, he recommended a postdoctoral fellow to Hopewell University.

Now that the agreement has been signed, it's impossible to come back!

The introduction of young scholars in colleges and universities is like buying stocks, and the previous scholars of algebraic geometry are the kind of stocks that are difficult to rise, and recruiting one can only continue to lose money.

Colleges and universities are just signing young scholars in the fields of algebraic geometry for the sake of talent diversification.

There are some very ordinary universities that don't even care about academics in the field of algebraic geometry, they pay more attention to the fields that can produce results.

For example, partial differential equations.

For example, function theory.

For example, computational mathematics.

Wait a minute.

Now, because of a research result, algebraic geometry stocks have been super positive, and the follow-up may continue to rise many times.

It's hard to buy this kind of stock again!

Now that algebraic geometry talents have become sought-after goods, even some material companies have signaled that they want to recruit some talents in algebraic geometry-related fields.

His own talent was poached, and then he "couldn't buy it back".

What to do?

When they thought of Seohai University again, they all gritted their teeth.

(Ask for a commuter pass)