The ad hoc meeting organized by the Science Foundation mainly discussed the content of taking the lead in the formation of an international organization on superconducting technology

International organizations have an important role to play in a wide-ranging frontier technology, and a dominant position in an international organization can bring a range of benefits.

The latest theory of superconductivity is proposed by China, and China will naturally consider taking the lead in establishing an international organization, and the conference is to discuss the specific content.

They had drawn up a charter that contained several main aspects.

The first is the issue of information sharing in theoretical research.

For example, a team has figured out the critical temperature of superconductivity for a combination of two elements.

In order not to waste scientific resources, other teams can abandon the research and just use the results of other teams.

In the study of two elements, it is impossible for any team to cover all combinations, and information sharing is naturally very important.

Other directions of superconductivity theory research can also be shared, such as the conflict of some element combinations, because it is likely to involve applied research, and some institutions may keep the results confidential.

If all institutions do this, the development of superconducting technology will certainly be greatly limited.

In addition, the subsequent research and development and application of superconducting materials will also involve many complex issues.

For example, if an institution has developed a superconducting material that can be industrially produced and applied, because the material is generally not patented, there will definitely be many institutions that carry out reverse engineering.

So how to protect patents in the process or to reverse engineer at will will definitely make the market very chaotic.

The international organization of superconductivity can play a coordinating role in this.

Wait a minute.

There are many areas that superconducting international organizations can be involved in, and by dominating the organization, you can develop the rule-making in your favor.

In terms of the current international situation, it is very difficult for China to occupy a dominant position in the field of superconducting technology, which can make human science and technology take off, or even completely impossible, because many countries will directly give up joining the organization.

These are all things that need to be discussed.

Many people think that superconducting technology will soon usher in rapid development, and the top level must be state-to-state negotiations, and the science foundation will lead the relationship between institutions and institutions.

The relationship between institutions and institutions is equivalent to the contact between the academic field, which will not involve too complex issues, and the organization of the academic field also needs to discuss some rules and other issues.

That's what the purpose of the meeting is.

This kind of rule-making and discussion-related conference has nothing to do with most scholars, who can only provide technical and theoretical references.

Wang Hao didn't say a word throughout the whole process, just listened to the content of the meeting.

When the conference was over, he was surrounded by several scholars, including Wang Chenglin and Du Jianwei, who approached Wang Hao to discuss the theory of connectivity semitopology and the physical mechanism of superconducting condensation.

Wang Hao also patiently said his opinion, "My idea is to study from the direction of annihilation theory. ”

"I've been working on the theory of annihilation, and the mathematical framework in it is very relevant to the theory of condensation physics, and it is still from the perspective of microscopic particles."

"If we can build a relevant mathematical system, I think it can be ......"

Wang Hao talked for a long time, he was explaining very seriously, and he also reminded me that "I will do this research when I go back, which involves the construction of the annihilation theory, which is very important to my own research." ”

Here's a reminder.

Wang Hao could see that Wang Chenglin and Du Jianwei were very interested in the direction he said, but he felt that he would be able to complete the research soon, so he simply said it directly and clearly, so that the two of them were "dead hearted" about the research.

Wang Chenglin and Du Jianwei could also hear what Wang Hao meant, but their thoughts were completely different from Wang Hao's.

Of course, they recognize Wang Hao's research ability.

If they were to do the same study, they would not be confident that they would be faster than Wang Hao, and they would even choose to give up directly.

But they believe that their research direction is different from Wang Hao's.

Wang Hao started his research from the theory of annihilation

that is, from the direction of semi-topology, to study the condensation physics; They are all specialized in the research of superconducting condensation physics, that is, starting from the direction of superconducting condensation physics, and finally connecting with the theory of semi-topology.

It's like digging a cave, Wang Hao started digging from the east side of the cave, and they started from the west side.

It is impossible to connect the caves directly, and it definitely takes a process.

In the process of connectivity, there will definitely be results one by one, and they can naturally pursue these results when they do relevant research.

After listening to Wang Hao's words, the two of them immediately had a lot of expectations.

After leaving in good condition, they couldn't help but look forward to it even more, and then looked at each other, and both smiles appeared on their faces.

At the same time, fierce sparks again appeared in the air.

……

Two days later, the International Conference on Superconducting Materials and Mechanisms was officially held.

The conference was supported by the Academy of Sciences, the Natural Science Foundation, the International Union of Superconducting Applied Physics and other departments, and was co-sponsored by the Condensed Matter Physics Laboratory and the National Laboratory of Superconductivity at the International Conference Center in Eastern Jiangsu.

In the morning, there were already a lot of people at the venue.

These include some internationally renowned experts in superconductivity, including some mathematicians related to algebraic geometry, as well as some theoretical physicists, as well as professional teams sent by major institutions, and so on.

Wang Hao has been in the spotlight since he came to the venue, and he was surrounded by a group of scholars who kept talking about semi-topology-related research.

The second person to get noticed is Billkal, who came with the Metropolitan University team.

Almost all scholars in the field of algebraic geometry would like to discuss the application of algebraic geometry to the study of superconductivity mechanisms with Birkar.

The latest research results of Wang Hao's team have greatly enhanced the status of algebraic geometry.

Algebraic geometry seems to have changed from the study of pure mathematics to the study of applied mathematics.

Scholars in the field of algebraic geometry are naturally worth doubled, and some doctoral students in the field of algebraic geometry used to worry about work, but now they are not worried at all, and many of them have been contacted by various institutions early and have already found jobs in advance.

From this, we can see how scarce algebraic geometry talents are.

The main problem in the field of algebraic geometry is that it is impossible to contact below graduate students, and only doctoral students can be said to have achieved academic success, and the threshold of the field is very high.

This is one of the reasons for the scarcity of algebraic geometry talents.

The other focus figures are Luo Dayong and Lin Bohan, whose respective research has also attracted great attention.

In the process of communicating with others, Wang Hao also met some international and domestic scholars.

Most scholars greet Wang Hao with a smile when they see him, but some scholars are different.

For example, some experts in the field of condensed matter physics, it would be good if they could grin when they saw Wang Hao, and Wang Hao was deeply impressed by Thales Parisi, a famous theoretical physicist.

Thales Parisi just smiled at Wang Hao when she saw him, then symbolically shook his hand, and then walked away completely carelessly.

That expression can be interpreted as a complete disdain for communicating with Wang Hao.

Wang Hao only pursed his lips lightly, of course he understood why those international experts in condensation physics didn't have a good face when they saw him.

Probably the reason is that their jobs are about to be smashed.

Where disciplines rise, there is a decline in disciplines.

Conventional research on superconducting condensation physics is a declining discipline because their research seems to have lost its meaning.

But in fact, Wang Hao does not think that the study of superconducting condensation physics has lost its significance, but only because he is based on the composition of elements and connects with the problem of superconducting critical temperature.

However, the study of superconducting condensation physics can continue to provide support for the theoretical mechanism of superconductivity in the microscopic field.

The theory of semi-topology still has limitations, for example, the composition of elements that are too complex without *** evidence.

If you want to study superconducting materials, such as superconducting materials at room temperature, the theory of semi-topology is insufficient.

Or just a study of chance

out of room-temperature superconducting materials; Either the theoretical mechanism of superconductivity must continue to be refined.

Wang Hao knows very well that the study of semi-topology has reached its limit, and it is impossible for him to completely solve the mystery of superconductivity by relying only on the demonstration of microscopic morphology.

The physics community probably hasn't realized this yet, and it's as if experts in superconducting condensation physics are about to lose their jobs.

Of course, it's also because it hasn't developed to that point.

At present, there are no superconducting materials that can be applied to industry even if the critical temperature is above 100K, so naturally there is no need to consider any room temperature superconducting materials.

……

When Wang Hao was talking to others about the study of semi-topology, there was an "acquaintance" from the California Institute of Technology, who was sitting in his position and watching from a distance, his eyes were slightly complicated.

None other than Paul Phil-Jones.

Paul Phil Jones is here again, but not to deny the theory of annihilation, but to hear something about it.

After returning to Caltech, Paul Phil-Jones began to seriously study the theory of annihilation, hoping to find out the problems of the theory with his own research.

After a while, he did not find any problems, but made certain achievements in the study of the theory of annihilation.

For example, he constructed some mathematical content related to annihilation theory and quantum physics.

That didn't excite Paul Phil-Jones.

After completing all that research, he realized that he seemed to have "helped" the Annihilation Theory, and immediately tore up all the contents, and for a moment, he was even in a bit of a madness.

Many colleagues are afraid to contact Paul Phil-Jones because they feel that there is something wrong with Paul Phil-Jones, like a madman, occasionally babbling to himself, and even smashing things in the office.

Paul Phil-Jones was in deep pain, he had always believed in string theory, but now he found himself interested in studying annihilation theory.

In fact, it is also very normal, string theory has been studied for decades, and many mathematical frameworks have been perfected, and if you want to study further, the difficulty becomes very high.

The theory of annihilation is different.

The theory of annihilation is a completely new content, and for the time being there is only a very simple mathematical framework.

It's like a newly discovered river, no one knows how many fish there are in the river, what kind of fish, a fisherman who likes to fish, and catches a lot of new kinds of fish on the shore in one go, naturally there will be a feeling of excitement.

Paul Phil Jones felt this feeling, but he was ashamed of his feelings, and he felt that he had betrayed string theory and become a shameful traitor like Ridley.

Paul Phil-Jones came to Su Dong and still wanted to hear some of the content of the annihilation theory, and the reason he gave himself was that "if you can know something new, you may find out the problem." “

Now seeing Wang Hao surrounded in the middle, Paul Phil Jones reminded himself again, "I'm just here to find a problem, not to hear some new theoretical content......"

"yes, I'm just looking for a problem"

"The more you understand the theory, the only way to find out the problem!"

I'm not Ridley, and I'll never betray string theory!"

……

The meeting officially began.

There is no award process for superconductivity-related professional fields.

The opening ceremony only made a summary of the achievements of recent years, focusing on the latest research of Wang Hao and his team, looking forward to the take-off of superconducting technology in the future, and then the conference entered the part of academic exchanges, and the scholars who were invited to participate in the conference made research and work reports respectively.

More than 200 papers were accepted at the conference, and there were many research and work reports to be done.

The first day was scheduled for very short reports, some of which lasted only 20 minutes, and new results reports were relatively long, usually no more than 40 minutes.

Wang Hao has been listening patiently.

The content of the conference on the mechanism of superconductivity theory is related to the conventional direction of condensation physics, because the direction of the argumentation of the annihilation theory has been found, and the inspiration value of the task is constantly increasing.

In one day, inspiration is enough

Warp increased to 30 points.

The next day was Wang Hao's report, or the report of Wang Hao's team, and the team had a total of four reports.

Part of what Wang Hao did was 'the relationship between elemental composition and microscopic morphological geometry,'

The other three all reported on their achievements in their respective fields.

The second thing that has attracted attention is Birkall's algebraic geometry research, which can be said to be very prominent in the repeated combination method of high-dimensional node graphs, and can even reach the level of half a Fields.

Wang Hao's report was scheduled for nine o'clock in the morning, and when he walked to the stage, he noticed a lot of unfriendly eyes.

Those are experts in condensation physics in the field of superconductivity.

This conference is a conference on the mechanism of superconductivity, and half of the people who came to attend were experts in condensate physics, but fortunately, experts in related fields in China were not very hostile to him, but foreign scholars were different.

Many of them feel that their jobs have been smashed, and it is normal for some projects to be stuck with funds.

Although they are still experts in the field of superconductivity in condensation physics, they feel that the importance and attention of their research have been greatly reduced.

This made them feel very unhappy.

In addition, they also have similar ideas as Wang Chenglin.

The study of the theoretical mechanism of superconductivity can be traced back a hundred years, during which there were five Nobel Prize-winning researchers in physics and ten Nobel Prize-winning scholars in physics.

With so much heavyweight research, the research discipline of basic logic has been formed, and because of Wang Hao's semi-topological research, the overall status has been greatly reduced.

Is it possible that the research related to condensate physics in the field of superconductivity has become meaningless?

Of course, Wang Hao would not answer this question, and in the face of a lot of unfriendly eyes, he just came to the stage very indifferently and made a report.

His presentation on the relationship between elemental composition and microscopic morphological geometry was a mathematical argument.

Most of the contents of the report are analyses and calculations, which are based on the Wang's geometry of the semi-topological form of a single element, combined with the mathematical construction of some annihilation theories, and finally demonstrate the relationship between the microgeometric form and the composition of the elements.

From the beginning to the end, it took about an hour and a half.

Because most of the involvement is definition and construction, and there is no too complex logical process, it is relatively understandable.

Actually, the hard part is in other people's research.

Including the theoretical combing of complex geometry, the correlation between semi-topology and topology, and the repeated combination of high-dimensional node geometry, it involves the content of the three disciplines, which are all very advanced research.

Wang Hao's report is the simplest, most of it is defined and calculated.

Definitions, naturally, do not need to be understood.

Whether these definitions are correct or not is related to whether the results are correct or not, as long as they are proved by experiments.

On that day, the four of them gave presentations, and the scholars in various fields felt that they had gained something, and it was almost impossible for them to understand all the content by themselves, and they could only find the content in their respective fields to understand.

On the third day, the academic presentation continued.

The morning's presentation was very unusual because it was Thales Parisi, a very famous theoretical physicist, who took the stage to give the presentation.

Although he has not won Fields or Nobel Prize, Parisi is recognized as the scholar who has made the greatest contribution to the research of superconductivity theory and mechanism in the past two decades, especially in the construction of the underlying logic of the theory.

His research is mainly to carry out some theoretical and physical analysis of the superconductivity mechanism, and the analysis he has made is difficult to prove, but it links a series of theoretical discoveries of superconductivity.

This is like creating a new system of physical theories, for example, creating the content of string theory, which can unify mechanics.

The two are about the same.

Thales Parisi, naturally considered the top figure in the field of superconductivity theory, gave a presentation on the latest research on the structure of superconducting magnetic crystals.

This report has not received much attention, mainly because the content is still within the physical range of superconducting condensation.

Now superconducting condensation physics

They have received less attention, and some fruitful research is still valued, but the theoretical content is difficult to be valued.

Thales Parisi's fame is there, and even if the content is not very appealing, there are many scholars who listen to the report.

When Parisi really explained the content, the scholars who came to listen suddenly felt that his eyes lit up, he was arguing for superconducting magnetic crystals, but it was related to Wang Hao's microscopic morphology and geometry.

When the report was halfway through, many people already knew what Thales Parisi was talking about, and they couldn't help but look at Wang Hao.

Wang Hao also knew what Thales Parisi was talking about, or what the purpose was, but he was still listening very carefully, because he found the content of Thales Parisi's research very interesting.

Thales-Parisi's work can be simply understood as proving that the microscopic form in the conductor is a superconducting magnetic crystal, and at the same time, he also used the argument of superconducting magnetic crystal to deny the role of annihilation.

"If we put several columns together, we can do a comparative analysis and find that the spin of the magnetic crystal has the same effect as the microscopic morphological framework."

"The structure of magnetic crystals can also replace the role of microscopic morphology."

"So I think that the so-called alternating gravity is the rotation of superconducting magnetic crystals......"

Thales Parisi said that he wanted to look at the audience, mainly at Wang Hao, who had a smile on his face, but his eyes were clearly provocative.

He did not deny Wang Hao's research results, and he also knew very well that Wang Hao's research results could not be denied, because many institutions have done research on the superconducting critical temperature of two elements, and the correctness of the results has been determined.

When an achievement can be verified by experiments, any theoretical refutation will become very weak.

No matter how perfect the mathematical structure is and how logical the analysis is, can it be verified by experiments?

If not, nature is meaningless.

What he rejects is the theory of annihilation

To be precise, it is the role of annihilation in superconductivity!

Wang Hao's theory is that the phenomenon of superconductivity is formed only when the microscopic form is squeezed by annihilation, and at the same time, the phenomenon of alternating gravity is formed when the microscopic form is squeezed.

He believed that the microscopic form was the structure of magnetic crystals.

At the same time, he demonstrated that magnetic crystal spins can also intervene in "semi-topological theory" rather than the role of annihilation.

This argument excludes the role of annihilation and directly refutes the theory of annihilation.

When Thales Parisi finished his presentation, the superconducting condensation physicists in the audience applauded enthusiastically, they were so excited.

"Parisi is a top theoretical physicist, he actually constructed a mathematical system of magnetic crystals, replacing the role of annihilation!"

"Magnetic crystals are microscopic forms, and I like this ......"

"It's a negation of the annihilation theory, and it's so interesting. A whole new interpretation, what would Wang Hao say? ”

"Parisi's research is self-contained, I didn't find a problem anyway, that's the real principle, right?"

"What annihilation theory, nonsense!"

Although Thales-Parisi did not deny Wang Hao's research results, he directly denied the role of annihilation, to be precise, replacing the role of annihilation with another explanation, which is equivalent to a very powerful counterattack against Wang Hao.

If his research results are confirmed, the status of research related to superconducting condensation physics will also be enhanced.

Many scholars even believe that after excluding the effect of annihilation, the bridge between the semi-topological system and the physics of superconducting condensation has been opened.

Wang Chenglin and Du Jianhua were dumbfounded, of course they understood what Parisi's research was, and they also thought that the system had been opened.

So......

They have chosen the direction of their research, and it has not yet started and it is over?

When Thales Parisi finished his report and was waiting for questions from the audience, everyone in the lecture hall looked at Wang Hao.

The annihilation theory was put forward by Wang Hao, and he also relied on the microscopic form of a single element to demonstrate the mathematical framework of the annihilation theory.

Now the effect of annihilation is "

Replacement, to a certain extent, is tantamount to denying the theory of annihilation, and Wang Hao naturally wants to say something.

So, how would he refute it?

Or is it ......

He couldn't think of it for a while, and became speechless?