Chapter 242 Superconducting Conference, the annihilation theory was denied!?
The temporary meeting organized by the Science Foundation mainly discussed the content of taking the lead in establishing an international organization for superconducting technology.
In a cutting-edge technology that covers a wide range of areas, international organizations will play a very important role, and occupying a dominant position in international organizations can bring a series of benefits.
The latest theory of superconductivity was proposed by China. China will naturally consider taking the lead in establishing an international organization, and the meeting will discuss the specific content.
They have drafted a charter, which mainly covers several aspects.
The first is the issue of information sharing in theoretical research.
For example, a certain team studied the superconducting critical temperature corresponding to a certain two-element combination.
In order not to waste scientific resources, other teams can give up research and directly use the results of other teams.
In dual-element research, it is impossible for any team to cover all combinations, so information sharing is naturally very important.
Other directions of superconducting theoretical research can also be shared, such as the conflict issue of some element combinations. Because it is likely to involve applied research, some institutions may keep the results confidential.
If all institutions do this, the development of superconducting technology will definitely be greatly limited.
In addition, the subsequent development and application of superconducting materials will also involve many complex issues.
For example, if a certain organization develops superconducting materials that can be industrially produced and applied, because materials generally have no patents, there will definitely be many organizations carrying out reverse engineering.
So how should patents be protected during the process, or should reverse engineering be carried out at will, which will definitely make the market very confusing.
The international superconducting organization can play a coordinating role.
etc.
Superconducting international organizations can cover many fields, and if you occupy a dominant position in the organization, you can develop the rules in a direction that is beneficial to you.
In terms of the current international situation, it is very difficult, or even impossible, for the country to take the lead in the field of superconducting technology, which can allow human science and technology to take off, because many countries will simply give up joining the organization.
These all need to be discussed.
Many people believe that superconducting technology will soon usher in rapid development. The top level must be negotiations between countries, while the Science Foundation will lead the relationship between institutions.
The relationship between institutions is equivalent to contact in the academic field and does not involve too complicated issues. Organizations in the academic field also need to discuss some rules and other issues.
This is the purpose of the meeting.
This kind of rule-making and discussion-related meetings have nothing to do with most scholars. They can only provide technical and theoretical reference opinions.
Wang Hao said nothing during the whole process and just listened to the meeting.
After the meeting ended, he was surrounded by several scholars, including Wang Chenglin and Du Jianwei. The two found Wang Hao to discuss the issue of connecting semi-topological theory and the physical mechanism of superconducting condensed matter.
Wang Hao also patiently expressed his opinion, "My idea is to study it from the direction of annihilation theory."
"I have been studying the annihilation theory. The mathematical framework is closely related to the theory of condensed matter physics, and it is still from the perspective of microscopic particles."
"If a relevant mathematical system can be constructed, I think it can be..."
Wang Hao continued talking for a long time. He was explaining very seriously and also reminded him, "I will do this research when I get back. It involves the construction of the annihilation theory and is very important to my own research."
This is a reminder.
Wang Hao could tell that Wang Chenglin and Du Jianwei were very interested in the direction he mentioned, but he felt that he would be able to complete the research soon, so he simply said it clearly and told the two people to "give up on the research."
Wang Chenglin and Du Jianwei could also hear what Wang Hao meant, but their ideas were completely different from Wang Hao's.
Of course they recognized Wang Hao's research capabilities.
If they were doing the same research, they had no confidence that they could do it faster than Wang Hao, and 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 annihilation theory.
They are all professionally engaged in the research of superconducting condensed matter physics, that is, starting from the direction of superconducting condensed matter 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 directly connect the caves, and a process will definitely be required.
In the process of China Unicom, there will definitely be results one after another. If they do relevant research, they can naturally pursue these results.
After hearing Wang Hao's words, the two of them suddenly had a lot of expectations.
After they left intact, they couldn't help but look forward to it even more as they thought about it. Then they looked at each other with smiles on their faces.
At the same time, fierce sparks appeared in the air again.
…
Two days later, the International Conference on Superconducting Materials and Mechanisms was officially held.
This conference was held with the support of 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 Superconducting Laboratory at the International Conference Center in Sudong City.
In the morning, there were already many people at the venue.
These include some internationally renowned superconducting experts, including some mathematicians related to algebraic geometry, some theoretical physicists, and professional teams sent by major institutions, etc.
Wang Hao came to the conference venue and became the focus of attention. He was surrounded by a group of scholars and kept talking about semi-topological related research.
The second person who received the most attention was Bill Carr, who came with the Capital University team.
Almost all scholars in the field of algebraic geometry hope to discuss with Birkar the application of algebraic geometry in the study of superconducting mechanisms.
The latest research results of Wang Hao's team have greatly improved 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 various fields of algebraic geometry have naturally doubled in value. Some doctoral students in the field of algebraic geometry used to worry about job problems, but now they are not worried at all. Many have been contacted by various institutions early and have already found jobs in advance.
From this we can see how scarce talents in algebraic geometry are.
The main problem in the field of algebraic geometry is that it is completely inaccessible to graduate students and below, and only doctoral students can be said to have achieved academic success. The threshold in the field is very high.
This is also one of the reasons why algebraic geometry talents are scarce.
The other focal figures are Luo Dayong and Lin Bohan, and their respective research has also attracted much attention.
Wang Hao also met some international and domestic scholars during his exchanges with others.
Most scholars greeted Wang Hao with a smile, but some scholars were different.
For example, for some experts in the field of condensed matter physics, it would be great if they could smile when they saw Wang Hao. The person who impressed Wang Hao deeply was Thales Parisi, a famous theoretical physicist.
When Taylor Parisi saw Wang Hao, she just smiled at him, shook hands symbolically, and then walked away without caring at all.
That expression could be interpreted as a complete disdain for communicating with Wang Hao.
Wang Hao just pursed his lips slightly. Of course he understood why those international experts in condensed matter physics didn't have a good look when they saw him.
Probably the reason is that their jobs are about to be destroyed.
Some disciplines rise, and some disciplines decline.
Conventional superconducting condensed matter physics research is a declining discipline because their research seems to have lost its meaning.
But in fact, Wang Hao does not think that the research on superconducting condensed matter physics has lost its significance, just because he connected the issue of superconducting critical temperature based on element composition.
However, research on superconducting condensed matter physics can continue to provide support for the theoretical mechanism of superconductivity in the microscopic field.
Semi-topological theory still has limitations. For example, it cannot prove the composition of elements that are too complex.
If you are conducting research on superconducting applied materials, for example, if you want to develop superconducting materials at room temperature, the semi-topological theory is insufficient.
Or it's just a matter of chance.
room-temperature superconducting materials; or we must continue to improve the theoretical mechanism of superconductivity.
Wang Hao is very clear that the research on semi-topology has reached its limit. He cannot completely crack the mystery of superconductivity by relying only on the demonstration of microscopic morphology. If he further studies, he will definitely be connected with the theoretical content of superconducting condensed matter physics.
The physics community probably hasn't realized this yet, which is why experts in superconducting condensed matter physics seem to be out of a job.
Of course, it’s also because it hasn’t developed to that point.
Now there are no superconducting materials with a critical temperature above 100K that can be used in industry. Naturally, there is no need to consider room temperature superconducting materials.
…
While Wang Hao was talking about semi-topological research with others, an "acquaintance" from the California Institute of Technology was sitting in his seat and watching from a distance. His eyes were a little complicated.
None other than Paul Phil-Jones.
Paul Phil Jones is here again, but his purpose is not to deny the annihilation theory, but he hopes to hear something about the annihilation theory.
After returning to Caltech, Paul Phil-Jones began to seriously study the annihilation theory, hoping to find out the problems with the theory through his own research.
After a period of time, he did not find any problems, but achieved certain results in the research on annihilation theory.
For example, he constructed some mathematical contents related to annihilation theory and quantum physics.
That doesn't excite Paul Phil-Jones.
After completing those studies, he realized that he seemed to have "helped" the annihilation theory, and immediately tore up all the contents. For a while, his state was even a little crazy.
Many colleagues are afraid to contact Paul Phil Jones because they feel that there is something wrong with Paul Phil Jones's state. He is like a madman. He occasionally talks to himself in a daze and even breaks things in the office.
.
Paul Phil-Jones felt very painful in his heart. He had always believed in string theory, but now he found that he liked studying annihilation theory.
In fact, it is quite normal. String theory has been studied for decades, and many mathematical frameworks have been perfected. If we want to further study it, the difficulty becomes very high.
The annihilation theory is different.
Annihilation theory is a completely new content and currently only has a very simple mathematical structure.
This is like a newly discovered small river. No one knows how many fish there are in the river or what kind of fish they are. A fisherman who likes fishing catches many new types of fish on the shore at one go, and there will naturally be a kind of fish.
A feeling of excitement.
Paul Phil Jones felt this feeling, but he was very ashamed of his feelings. He felt that he had betrayed string theory and became a shameful traitor like Ridley.
Paul Phil-Jones came to Sudong, still hoping to hear some content about the annihilation theory. The reason he gave himself was, "If you can learn some new content, you may be able to find out the problem."
Now seeing Wang Hao surrounded in the middle, Paul Phil Jones reminded himself again, "I'm just here to ask questions, not to hear some new theoretical content..."
"Yes, I'm just looking for a problem."
“Only when you understand the theory better can you find the problem!”
I am not Ridley, and I will never betray string theory!"
…
The meeting officially begins.
There is no awards process in the professional fields related to superconductivity.
The opening ceremony only summarized the results of recent years, focusing on the latest research of Wang Hao and his team, looking forward to the future development of superconducting technology. Then the meeting entered the academic exchange part. Scholars who were invited to attend the meeting
, make research and work reports respectively.
The conference received more than two hundred papers, and there is a lot of research and work reports to be done.
The reports arranged on the first day are all very short. Some work reports are only 20 minutes long. New results reports are relatively longer, generally no more than 40 minutes.
Wang Hao has been listening patiently.
The contents of the conference on the theoretical mechanism of superconductivity are all related to the general direction of condensed matter physics. Because the demonstration direction of the annihilation theory has been found, the inspiration value of the task is also constantly increasing.
One day is enough for inspiration
It has been increased to 30 points.
The next day is Wang Hao's report, or rather the report of Wang Hao's team. The team has a total of four reports.
What Wang Hao did was 'the relationship between elemental composition and microscopic morphological geometric structure.
The other three people all gave reports on their achievements in their respective fields.
The second thing that attracted attention was Bill Carr's research on algebraic geometry. The research on the inverse composition method of high-dimensional node graphs can be said to be very outstanding, even reaching the level of half a Fields.
Wang Hao's report was scheduled for nine o'clock in the morning. When he walked to the stage, he noticed a lot of unfriendly looks.
Those are experts in condensed matter physics from the field of superconductivity.
This meeting was a meeting on the mechanism of superconductivity, and half of the people attending were experts in condensed matter physics. Fortunately, domestic experts in related fields were not very hostile to him, but foreign scholars were different.
Many of them feel that their jobs have been ruined, and it is normal for some projects to have funds blocked.
Although they are still experts in condensed matter physics in the field of superconductivity, the importance and attention of their research have been greatly reduced.
This made them feel very dissatisfied.
In addition, they also have similar ideas to Wang Chenglin.
Research on the theoretical mechanism of superconductivity can be traced back a hundred years. During this period, five Nobel Prizes in superconductivity research alone were awarded, and ten scholars won the Nobel Prize in Physics.
So many heavyweight studies have formed the research discipline of basic logic. Just because of Wang Hao's semi-topological research, the overall status has been greatly reduced.
Does research related to condensed matter physics in the field of superconductivity become meaningless?
Of course Wang Hao would not answer this question. Faced with a lot of unfriendly looks, he just went on stage and gave a report very calmly.
His report was on the relationship between elemental composition and microscopic morphological geometric structure, which was demonstrated from a mathematical perspective.
Most of the report content is analysis and calculation. It is based on Wang's geometry of single-element semi-topological form, combined with a part of the mathematical structure of annihilation theory, and finally demonstrates the relationship between microscopic geometric form and element composition.
From the beginning to the end of the explanation, it takes about an hour and a half.
Because most of the involved are definitions and structures, there is not too complicated logical process, so it is relatively understandable.
In fact, the difficult part to understand lies in other people's research.
Including the theoretical combing of complex geometry, the relationship between semi-topology and topology, and the inverse composition of high-dimensional node geometries, involving three disciplines, they are all very advanced research.
The report made by Wang Hao was actually the simplest, with most of it containing definitions and calculations.
The definition, of course, does not need to be understood.
Whether these definitions are correct is related to whether the results are correct, which can only be proved by experiments.
Four people made reports that day, and scholars in various fields felt that they had gained something. It was almost impossible for them to understand all the contents alone, and they could only find contents in their respective fields to understand.
On the third day, the academic report continued.
The report this morning was very unusual, because the one who took the stage to give the report was Thales Parisi, who was a very famous theoretical physicist.
Although he has not won a Fields or Nobel Prize, Parisi is recognized as the scholar who has made the greatest contribution to the research on the theoretical mechanism of superconductivity in the past two decades, especially the underlying logical construction of the theory.
His research mainly focuses on some theoretical physics-related analysis of the superconducting mechanism. The analysis he made is difficult to prove, but it links a series of theoretical discoveries of superconducting together.
This is like creating a new physical theory system, such as creating the content of string theory, which can unify mechanics.
The two are almost the same.
Thales-Parisi is naturally considered a top figure in the field of superconducting theory, and the report he gave was about the latest research on superconducting magnetic crystal structures.
This report did not receive much attention, mainly because the content was still within the scope of superconducting condensed matter physics.
Superconducting condensed matter physics now
They have not received much attention. Some fruitful research is still valued, but the theoretical content is difficult to be taken seriously.
Thales-Parisi's reputation is there, and even if the content is not very attractive, many scholars go to listen to the lecture.
When Parisi actually explained the content, the scholars who came to listen suddenly felt their eyes light up. He was demonstrating superconducting magnetic crystals, but he related to Wang Hao's content related to microscopic morphological geometry.
When the report was halfway through, many people already knew what Taylor Parisi was talking about, and they couldn't help but look at Wang Hao.
Wang Hao also knew what Taylor-Parisi was talking about or what his purpose was, but he still listened very carefully because he thought the content of Taylor-Parisi's research was very interesting.
Thales-Parisi's research can be simply understood as proving that the microscopic morphology within the conductor is a superconducting magnetic crystal. At the same time, he also used the argument of superconducting magnetic crystals to deny the role of the annihilation force.
"Putting several equations together, we can do comparative analysis, and we can find that the magnetic crystal spin 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 AC gravity is caused by the rotation of superconducting magnetic crystals..."
Taylor Parisi said she wanted to look at the audience, mainly looking at Wang Hao. He had a smile on his face, but his eyes were obviously provocative.
He did not deny Wang Hao's research results, and he also knew very well that there was no way to deny Wang Hao's research results, because many institutions were conducting research on the superconducting critical temperature of dual elements and had already confirmed the correctness of the results.
When a result can be verified experimentally, 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 through experiments?
If not, it is naturally meaningless.
He rejected the annihilation theory
To be precise, it is the role of annihilation force in superconductivity!
Wang Hao's theory believes that the superconducting phenomenon is formed when the annihilation force squeezes the microscopic morphology. At the same time, the special situation of the squeezing of the microscopic morphology forms the phenomenon of alternating gravity.
He believed that the microscopic morphology was the magnetic crystal structure.
At the same time, he demonstrated that magnetic crystal spin can also be involved in "semi-topological theory" instead of the role of annihilation force.
This argument is tantamount to excluding the role of the annihilation force and directly refutes the annihilation theory.
When Thales-Parisi finished his report, the superconducting condensed matter physicists in the audience applauded enthusiastically. They were really excited.
"Parisi deserves to be a top theoretical physicist. He actually constructed a mathematical system for magnetic crystals, replacing the role of the annihilation force!"
"I like this statement that magnetic crystals are microscopic forms..."
"This denies the annihilation theory. It's so interesting. It's a brand new explanation. What would Wang Hao say?"
"Parisi's research has its own logic. Anyway, I didn't find the problem. Is this the real principle?"
"What annihilation theory, nonsense!"
Although Thales-Parisi did not deny Wang Hao's research results, he directly denied the role of the annihilation force. To be precise, replacing the role of the annihilation force with another explanation was equivalent to a very powerful counterattack against Wang Hao.
.
If his research results are confirmed, the status of research related to superconducting condensed matter physics will also be improved.
Many scholars even believe that after excluding the role of annihilation force, the bridge between semi-topological systems and superconducting condensed matter physics has been opened.
Wang Chenglin and Du Jianhua were both stunned. Of course they understood what Parisi's research was, and they also believed that the system had been opened up.
so……
They chose a research direction and ended it before it even started?
When Taylor 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 proposed by Wang Hao. He also relied on the microscopic morphology of single elements to demonstrate the mathematical structure of the annihilation theory.
Now the effect of the Annihilation Force is "
Substitution, to a certain extent, is tantamount to denying the annihilation theory, so Wang Hao naturally wanted to say something.
So, how will he retort?
Or……
He couldn't think of anything for a while and became speechless?