International media are reporting on the new findings of the University of Chicago's superconducting experimental group.
There have also been many reports in China.
In the opinion of scholars in all related fields, the observation of the extreme value of the AC gravity field when it is greater than the superconducting transition temperature is definitely a major discovery in the field of AC gravity and superconducting mechanism research.
This discovery is of great significance.
On the one hand, there is research related to AC gravity, that is, anti-gravity. Since the extreme value of the AC gravity field can be observed when it is greater than the superconducting transition temperature, will it be possible to create a device that conducts electricity at room temperature? Communicating gravity fields without superconducting state support?
If it is possible to create an AC gravity field at room temperature, the application will definitely become very widespread.
On the other hand is the study of superconducting mechanisms.
In this research field, the country has already caught up with the international level, and new discoveries are likely to make breakthroughs in research in related fields and reach new heights.
Higher-level departments 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. He also said that he could easily replicate the experiment and even surpass it easily.
Wu Hui felt incredible, "Professor Wang, you are not joking, right? Can this experiment be easily replicated? Or surpass it? Their research did not disclose the specific composition of the mixed gas, right?"
Zhou Minhua also kept looking at Wang Hao.
Wang Hao smiled and said, "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 let everyone study together. Because in this field, we alone need to invest a lot of money and time to study it, and we may not be able to achieve results."
"Only when the whole world studies together can we make new discoveries, the discoveries we want to see."
"Now what the University of Chicago has discovered is what I've always wanted to see."
"Although the results they published only talked about mixed gases, they also explained the main element components, which is enough. @*~~"
After Wang Hao finished speaking, he added, "You don't have to worry about the research on AC gravity. What they call greater than the superconducting transition temperature is not too big. It should be only two degrees or less under normal circumstances. .”
"The reason why it can exceed five degrees is just because of the special environment of super pressure."
"This discovery has little significance for the study of AC gravity, but it can be said to be decisive for the study of superconducting mechanisms."
Wang Hao explained a lot in succession.
Wu Hui and Zhou Minhua still didn't understand, but it was enough to know that Wang Hao didn't care about the results and could easily replicate 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 explain, "Actually, I wasn't worried 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 AC gravity field strength just before the superconducting transition temperature."
Although they had already heard Wang Hao say it, Wu Hui and Zhou Minhua were still surprised when they heard it from others.
Zhou Minhua asked, "In other words, Professor Wang's research is waiting for this news?"
"right!"
Liu Yunli nodded vigorously, "Now that there is news, and the other party has also announced information about the main elements, I believe Professor Wang's research will make great progress."
He said it with great confidence.
Zhou Minhua and Wu Hui are also looking forward to the big progress in the research of AC gravity and superconductivity mechanisms?
What exactly?
...
Wang Hao's research has indeed made great progress, and this is the news he has been waiting for.
Previous research has been stuck on the demonstration of the gap part of the microscopic morphology, while the University of Chicago research announced the main element composition of the mixed gas.
This is enough
He can pass.
Substitute the main element components to complete the mathematical structure of the gap.
Some elements are definitely meaningless, while others play a key role.
Because the relevant calculations are very complex, it is impossible for him to bring in all the elements for calculation, and the combination of elements is different, and there are many forms that can be formed.
Now you only need to do 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: Constructing a unidirectional semi-topological system (difficulty: S). 】
[Inspiration value: 103. 】
He immediately consumed 100 points of inspiration, and the information in his mind immediately formed a path.
Wang Hao started the structural work on the final gap.
The first step in the mathematical construction work of the final gap part is to make calculations based on the given elements, and then determine the combination of elements that meets the overall definition.
This step is the most important.
After that, the geometric structure of the notch can be described laterally based on the combination of elements that meet the definition, but this part of the work still needs to be completed by other people.
Wang Hao can also complete it himself, but his research on algebraic geometry and topology is not that in-depth, so the work completed may be somewhat imperfect.
He still hopes to improve it as much as possible.
Therefore, he immediately reconvened everyone to do the final finishing work together. Later, he would have to write papers and research reports, which still required everyone to work together for a long time.
at the same time.
Bill Carr was sighing in his office. He had returned to Shuimu University for a while, but he discovered the previous problems again.
Simply put, there is no inspiration.
Research, pure mathematics research, is very much in need of inspiration. While doing semi-topological research with Wang Hao, he would also think about his own research. Occasionally he would have some inspiration, but whenever he returned to Shuimu University, the inspiration It seems as if everything has left him.
This made Bill Carr feel very depressed.
So every day after his teaching work, he simply went to the mathematics center to discuss problems with other people, hoping to get some inspiration from the discussions. _o_m
Bill Carr thought very simply. Since you will be inspired when working with Wang Hao, then you may also be inspired when working with other people?
That's what he thought, and that's what he did.
Qiu Chengwen was also very happy to see Bill Carr keep coming to the Mathematics Center. Bill Carr had been working at Xihai University for a month. After returning to Shuimu University, Bill Carr was finally able to do teaching and scientific research with peace of mind.
He finally put his heart back in his stomach.
"It seems that Kachel still prefers the environment of Shuimu University." Qiu Chengwen thought so, and went over to discuss a few words with Bill Carr. He was a top expert in differential geometry and mathematical physics, and also had some experience in algebraic geometry.
When he actually talked about research issues with Bill Carr, Qiu Chengwen found that Bill Carr had been sighing, which could even be understood as being dissatisfied with discussing with him.
Qiu Chengwen didn't quite understand this emotion, but he knew it must be because there was no progress in research.
He said comfortingly, "Kachel, don't be too anxious in your research, you are still very young."
Birkar pursed his lips vigorously, "Compared to Wang Hao, I am already very old."
"...You can't compare with Wang Hao."
Qiu Chengwen said depressedly, "Compared with Wang Hao, no one has to study mathematics."
"That's right."
Birkar reluctantly regarded this as comfort, he still felt lack of energy.
At this time, the phone suddenly rang.
When Birkar saw that the call was from Wang Hao, he immediately pressed the answer button and heard Wang Hao on the other side say, "Kachel, come on, I already know how to complete the final gap!"
"This is really good news!"
Birkar's spirit has obviously changed. He went from feeling depressed and depressed to full of expectation and joy in an instant, as if he had received a gift from a beautiful little girl.
Confess, I feel much younger all of a sudden.
Qiu Chengwen was stunned by the huge change in Birkar's demeanor. He asked blankly, "Is this the call from Wang Hao?"
"Um."
Birkar nodded with joy, "He said that the research has made progress and asked me to go over and do the final work together."
"Our research is almost complete!"
"Mr. Qiu, you will see great results that will shock the world, and you will also see that algebraic geometry will become the hottest mathematical subject!"
"What?"
Qiu Chengwen thought he heard wrongly.
Algebraic geometry is a very niche mathematical subject. This subject has almost no connection with applications. Engaging in the research of algebraic geometry is equivalent to engaging in the research of pure mathematics.
Bill Carr actually said that algebraic geometry will become the hottest mathematical subject?
How can this be!
Birkar did not explain much, but immediately left the mathematics center and went back to pack his things and prepare to leave.
He couldn't wait to fly to Xihai University.
...
With the arrival of Bill Carr, the semi-topological research quartet reunited.
Wang Hao explained the latest progress, "The research at the University of Chicago inspired me. I demonstrated a combination of elements that fully meets our definition standards."
"We can use this to build a mathematical construction of the gapped portion of the microscopic morphology."
He divided his calculation results into three parts and gave them to Bill Carr, Lin Bohan and Luo Dayong.
The next step is obviously to work together to improve the mathematical structure of the gap.
Although the mathematical construction work is very complicated and boring, everyone is very excited because they know very well how significant the research at hand is.
As Bill Carr said, it will be a great achievement that will shock the world.
A very straightforward explanation is that after they have completed the study of microscopic morphology and semi-topology, they can use this to calculate the microscopic geometric form corresponding to the two-element combination.
Then, based on the research results, such as the application of the superconducting law, the superconducting critical temperature of the dual-element material is calculated.
In other words, the laws of superconductivity have been expanded to include two elements, rather than only single element substances.
This result is already world-class.
That's not all.
If you do a little bit of calculation and analysis, you can calculate the superconducting critical problem corresponding to the three-element material based on their topological system.
Of course, when three elements are involved, the calculations will be inaccurate and require very complex analysis, but as long as it is possible, it will be enough to shock the world.
Their research results cover all element combinations. Even substances composed of more than a hundred elements can theoretically calculate the superconducting critical temperature.
To a certain extent, they have cracked the relationship between the critical temperature of superconducting and the composition of material elements.
The only thing is that the calculation process will be very complicated and involves mathematical analysis problems, so there cannot be any deviation in the middle.
Its difficulty can be illustrated by an example.
For example, a certain three-element substance requires more than a dozen top mathematicians in related fields to calculate and analyze it together for several months or more than a year.
Just a two-element combination requires several mathematicians to calculate together for more than a week.
As the number of elements increases, the calculation difficulty increases exponentially.
It goes without saying about the four elements and the five elements.
The crux of the problem is that because complex mathematical analysis is involved, it is very difficult for computers to assist in calculations.
The calculation process may be simplified in the future, but it still requires many mathematicians to control it.
Of course, those involved in the research are not too concerned about how complicated the subsequent calculations are. They are more pleased with their results, because the level of the results can be understood as, "far beyond the mathematical results of the Nobel Prize in Physics."
In other words, there's nothing wrong with getting a Fields.
Bill Carr will also hope to win the Nobel Prize in Physics, as a Fields winner.
Especially the Fields winner who studied algebraic geometry, the Nobel physicist has almost nothing to do with him.
Now he found that he had a chance to win this award. As long as the results were made public, their research team might win the Nobel Prize in Physics. @·No mistake first~~
Of course, there will not be too many people in the selection, 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 are even more looking forward to it.
They never imagined that one day they would be able to participate in such a significant achievement.
Although they are only auxiliary researchers, in the face of such important results, is it possible for them to win an international award?
Instead of asking for Fields or Nobel, a small prize in other areas is fine!
...
While the research team was working hard to finish the 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 entire research process. His understanding of research was much better than that of the other three.
Lin Bohan and Luo Dayong only understood a certain aspect of the research.
Birkar's understanding is relatively in-depth and his participation is higher than the other two, but his understanding is still relatively sideways and he only knows the final results.
Wang Hao's understanding is different.
In the process of research, he has calculated a microscopic three-element combination that best conforms to the semi-topological form, and gave it the code name 'Type 1'.
When a certain material has a combination of 'Type 1' elements, the critical temperature of superconductivity can be greatly increased. The maximum temperature under normal pressure can be close to 'minus 50 degrees Celsius,' which is '223.15K.
Because it is likely to involve widespread application issues in the future, Wang Hao did not tell the rest of the research team, but made a report to his superiors. The report only used '1 type', which represents the element combination, and classified it as absolutely confidential. The form was submitted to the Bureau of Science and Industry.
After handing the report to the 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.
In the past, we have been focusing on theoretical issues of superconducting mechanisms, but now it can be said that to a certain extent, the relationship between superconducting critical temperature and material composition has been cracked, and research on high-temperature superconducting materials has been possible.
There is a lot of research on high-temperature superconducting materials in the world, but most of the results only hover in the range of tens of K.
Although some research groups claim to have created superconducting materials at 100 K or even room temperature, in fact, those studies have no application value.
Either that, it's pure liquefied gas molecules or organic materials.
Or, it is the realization of 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 create an ultra-high pressure environment.
Superconducting materials that can be used in industry can be simply understood as must contain metal components. Only superconducting materials containing metal components will have a high critical current upper limit.
Because of this, iron-based superconducting materials have become a popular direction for high-temperature superconducting materials.
Now with the '1 type, combined information can be used 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 K?"
"Or higher?"
Wang Hao was thinking and looking forward to it very much.
Birkar walked out of the office. He stretched for a long time. When he saw Wang Hao, he came over with a smile and said, "Wang Hao, this research will greatly enhance the status of algebraic geometry."
"Besides, I don't have to think about anything else. I can just do this research in the future."
His words were filled with emotion and expectation.
What Bill Carr calls research work is a simplification of the research they do.
The most complicated problem in the process is the problem of algebraic geometry. Some morphological expressions can be simplified with algebraic equations, which will greatly improve the efficiency of calculation.
In addition, the corresponding calculation work can be completed directly by algebraic geometry professionals.
Mathematicians in other subject areas want to make achievements based on research.
If you calculate the superconducting critical temperature of a combination of elements, you may encounter the problem of insufficient knowledge.
Wang Haodao, "It seems 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 figure and leave a very strong mark in the development of human science and technology."
"Congratulations in advance."
"Ha ha."
Bill Carr laughed.
Wang Hao suddenly became more serious. He said, "Kachel, have you ever thought that if you continue to study in depth, you may become a strategic figure."
"Strategic level?" Bill Carr thought for a moment.
"right."
Wang Haodao, "As long as our results are published, algebraic geometry experts will become very popular. If you continue to conduct in-depth research, your life may be affected..."
Birkar was silent for a moment.
He understood what Wang Hao was specifically talking about. Just like his hometown, Yilan, it was always targeted internationally. He would become an expert in the field of superconducting research, and superconducting would definitely lead to breakthroughs in science and technology. Related Experts in the field will definitely be differentiated by country.
Birkar fell silent.
Wang Hao did not disturb Birkar. When faced with life choices, it is better to think and make decisions by yourself.
If Birkar stopped doing research because of this, or simply immigrated to other countries, he would not persuade the other party to change their attention.
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 make preparations.
Wang Hao knew very well what kind of impact the research results would have after they were published. He found the president Yan Fu and made a serious explanation, "As a member of Xihai University, I am very concerned about the development of the school."
"Then what?"
Yan Fu was directly approached, and upon hearing such a sentence, he was obviously in a daze.
“The School of Science and the Department of Mathematics should focus on developing one subject first, 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 talents in the field of algebraic geometry to come to the school!"
"Give them the best treatment and let them come..."
Wang Hao finished speaking very seriously.
He just gave the school a suggestion. As for whether to follow it or not, it still depends on the school's decision.
Yan Fu was stunned for a long time, 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 would not just come and joke. Since he said it directly, there must be some reason, probably related to the research results.
So, poaching?
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 recruit a lot of talents, right?
To be continued
