Chapter 268 A major breakthrough, real anti-gravity aviation technology!
The algebraic expression of semi-topological forms, that is, the study of weakening the Hodge conjecture, has aroused heated discussions in the international academic community. However, the initial discussion was not the research itself, but the publication of the paper directly on the website of "New Advances in Mathematics"
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This is obviously an unusual operation.
"New Advances in Mathematics" is one of the four top journals in international mathematics. They are very strict in reviewing papers. Every update of the main website is linked to the content of the new issue of the journal, and there has never been a targeted publication of a paper.
It is obviously an unconventional operation and is inseparable from the author and content of the paper.
When many scholars pay attention to the content itself, they also understand why "New Advances in Mathematics" does this.
One is because the author is Wang Hao.
Other collaborators include Kacher-Bilkar, a top scholar in the field of algebraic geometry, and two other less well-known scholars.
In addition, it is the content of the paper.
Hodge conjecture problem.
This problem can be said to be the most low-key, the most unknown, and the one that receives the least attention among the seven major mathematical problems in the Qian Jubilee Year.
The reason why Hodge's conjecture has not received much attention is that it is a purely mathematical problem and involves two unpopular subjects, algebraic geometry and topology.
Ordinary people simply cannot understand the content of Hodge's conjecture. Compared with other mathematical disciplines, algebraic geometry and topology are "niche" in mathematics, and there are not many mathematicians who specialize in related research.
In addition, the Hodge Hypothesis is not part of number theory like the Riemann Hypothesis, and has "kidnapped" thousands of mathematical inferences based on the Riemann Hypothesis, and is directly related to the distribution of prime numbers.
etc.
Precisely because of the unpopularity and low profile of the Hodge conjecture, coupled with the terrifying difficulty, there has been no progress in the past few decades. It is even said that it is not easy to find a relevant non-professional "civilian research" article.
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The results published by Wang Hao's research group are directly related to the Hodge conjecture. It is the content of semi-topological correlation algebraic geometry. It can be considered as "weakening the Hodge conjecture", and many people are shocked by the content.
"Hodge's conjecture?"
"Even if it's 'weakened,' can it really be accomplished?"
"I have carefully studied the semi-topological structure, and I feel that it is the same as topology, but I still cannot directly relate it to algebraic expression..."
"It's really amazing that a universal formula can be developed, isn't it?"
"This paper is extremely difficult, and it is really not easy to understand it."
"Wang Hao plus Birkar...should be no problem, right? Not to mention Wang Hao, Birkar is one of the best in the field of algebraic geometry."
"More importantly, studying the theoretical mechanism that can correlate with superconductivity is not just mathematical research, it is very useful for promoting semi-topological microscopic morphology, that is, the superconducting mechanism..."
Many people have thought about the issue of semi-topological micromorphology.
Semi-topological microscopic morphology can be directly understood as the correlation mechanism between superconducting materials and element composition.
After Wang Hao's research group announced the relevant results, many algebraic geometry experts and experimental groups around the world joined in the research. However, when using existing results for calculations, it is relatively easy to calculate the combination of two elements.
If further analysis and calculation of the three-element combination is carried out, the difficulty will increase exponentially. Even until now, no research group has dared to determine the corresponding performance of a certain three-element combination.
The current new achievement is to express the semi-topological structure algebraically, which is equivalent to the simplification of the expression of semi-topological micro-morphology, and will inevitably continue to simplify the calculations related to semi-topological micro-morphology.
Then it will be relatively easier to analyze the three-element combination.
This is what theory does.
Of course, the role of research in promoting the superconducting mechanism goes far beyond simple calculations. The most important thing is to judge based on research which combination of elements forms a material with a relatively lower superconducting critical temperature.
Many people were aware of this problem and immediately reacted to public opinion, "This
It is a huge advancement for the theoretical mechanism of superconductivity! "
"The calculation of element combinations has been simplified, and the difficulty will definitely be reduced accordingly, which can promote the research of superconducting materials."
"This is not only a mathematical result, but also a significant physical result!"
"The semi-topological expression has been cracked, which is of great significance..."
"As expected of Wang Hao, worthy of Birkar, worthy of..."
"Luo Dayong and Lin Bohan are also members of the research team, but they are relatively unknown, but their names will soon be resounding around the world!"
"Perhaps we should pay more attention to these two unknown figures..."
"One is an expert in topology and the other is an expert in complexity issues. They have also made great contributions in the research..."
When many scholars are talking about the research results, in fact, no scholar can judge whether the research is correct.
This needs to be confirmed by top international institutions.
It is also very difficult for top international research institutions to confirm their results, because the research content involves very advanced algebraic geometry, topology, logic theory and other issues, and its foundation is also very difficult semi-topological theory.
Several disciplines put together are definitely not something that a scholar can understand.
To confirm the research results, a team of top scholars needs to be formed, which must include top topology experts, algebraic geometry experts, and complex problem experts.
Even if you find relevant experts and get together to conduct research, it will take a long time because it is not easy to understand the content and the verification is relatively complicated.
Because the research is of great significance, many institutions are indeed very interested.
For example, the Institute for Advanced Study in Princeton.
On the third day after the results were released, the Institute for Advanced Study in Princeton announced the establishment of a special group to review research on semitopological algebraic expressions. "We all know that New Advances in Mathematics did not review the paper."
"This has nothing to do with Wang Hao's personal academic influence. It is mainly because the research is too difficult and the content of the paper is too profound."
"Even if we organize a team of seven people, it will take at least a month to fully understand it."
"One month is the basis."
"When I saw this study, I was very surprised, because I thought that a study like this would take at least several years or even decades of collaborative research to complete."
"But, obviously, it is impossible. The history of semi-topological theory is only one year, and the current research was completed in a short time."
"This is very amazing, it makes me feel incredible, I can't imagine how it was done..."
Many scholars also find it incredible.
Among them, some top scholars in the field of algebraic geometry are very depressed.
Even in academia, there are successes and failures.
When faced with the study of semi-topological micromorphology, algebraic geometers are divided into two groups. One group is in the direction of applied calculations. They have joined relevant research groups and experimental groups, and contacted the theory of semi-topological micromorphology to study the composition of elements.
Perform computational analysis.
The other school is the theoretical school, and those who can engage in theoretical research are top figures in the field of algebraic geometry.
Just like Gao Zhenming, many top algebraic geometry experts work on simplification of microscopic morphological expression, and semi-topological expression is the key to it.
Many top experts in algebraic geometry have conducted research in this direction.
Now that the results cannot be released, they, like Gao Zhenming, find that their efforts have been in vain.
When others have already achieved results, their research becomes useless, just like solving a mathematical problem. When others have already solved the answer, it is meaningless to continue research.
They all have the same feeling in their hearts -
"Wang Hao and Bill Carr's research actually directly covers semi-topological systems."
"This is simply...not talking about martial ethics!"
…
While the international mathematical physics community was buzzing with discussions, Wang Hao did not pay much attention to the published results. In his view, the research on weakening the Hodge conjecture was just an "expression tool".
With the expression tool, we can express the "gap problem".
This also promotes the research on the semi-topological micromorphology of CA005.
On the basis of having the tools and continuing to study relevant content, theoretical issues can be solved directly.
Then what is lacking is experimental data support.
Wang Hao paid special attention to the manufacturing issues of CA005 and learned that CA005 has achieved standard manufacturing.
Although rapid large-scale production is not yet possible, more than 80% of the steps can be simplified to standard standards, and some steps must be performed in the laboratory.
The laboratory process is also a key factor limiting the production speed.
"Three tons have been manufactured so far." Deng Huanshan said a number. "The manufactured materials have been transported to the factory and shaped into the corresponding shape according to your requirements."
"Academician Wang, don't worry, the subsequent production speed will be faster and faster. Now we can produce about one ton every three days."
This number satisfied Wang Hao, but the experiment still had to wait for time.
Whether it is the production of materials or the shaping, transportation, and assembly carried out by the factory according to requirements, it all takes time.
…
On this day, Wang Hao's research team gathered together again, but instead of doing research together, they talked and laughed about the results.
They are very confident in the research results, but the key problem is that there is no heavyweight international academic organization that recognizes the results.
This is a very depressing thing.
There are still many scholars in the world talking about related research, and most of them hold a positive attitude towards the research. However, without an international academic organization standing up to confirm whether the results are correct, they will not be directly confirmed.
Wang Hao doesn't pay much attention to this, because his academic influence has reached its peak, and one more top-level achievement doesn't seem to be a big deal.
It's different for others.
This is related to the honor of their achievements.
Even Bill Carr will pay attention to the issue of achievement confirmation. He has indeed won the Fields Medal, but Fields is not the end. He hopes to be more outstanding and receive more honors and recognition in the field of mathematics.
Luo Dayong and Lin Bohan were even more like this. They were looking at the report depressedly, "Look at this report..."
"It says that the research done by Wang Hao and Birkar will promote the theoretical mechanism of superconductivity... Why the research done by Wang Hao and Kachel? What are our names?"
"here has."
Luo Dayong pointed to a piece of news on his mobile phone, which read, "...the latest results were completed by Wang Hao, Fields winner Bill Carr and others..."
"Where is it?" Lin Bohan looked for a long time but couldn't find his name.
"here!"
Luo Dayong pointed to a place and saw the word "Waiting for someone" written on it.
Lin Bohan's face suddenly turned a little dark. They had seen many reports, and most of the reports put him and Luo Dayong in the group of, etc.,,,etc.,, as if they were completely incidental.
But in fact, it was Wang Hao who made the greatest research contribution, but Lin Bohan believed that his contribution was not much less than that of Bill Carr.
Luo Dayong transformed into, wait a minute, it's really no problem. He joined later, so it's good to be able to mix in, wait a minute.
Wang Hao smiled and said, "Don't take it too seriously. Some reports say this, but in terms of academic rules, you and Kachel are tied."
This is the truth.
This research result was completed together by the research team. Wang Hao must be the first contributor. In theory, the other three are tied.
Nowadays, many reports put Luo Dayong and Lin Bohan in the category of, etc., mainly because they have no personal fame.
Compare
Even if Erkar's contribution is similar to that of Lin Bohan, because he won the Fields Medal, it feels like his contribution is more and more important.
"So, it's important to make breakthroughs in personal research..."
"Only when you win some personal awards can you be recognized internationally."
"Hey~"
Lin Bohan and Luo Dayong sighed together.
But when they thought about it carefully, they felt that they were pursuing too much, especially Lin Bohan, who was only a working postdoctoral fellow before coming to Xihai University.
Now being able to join the top research group and accomplish the top results, and having a name on it is already a big deal.
For example, he has been officially promoted to professor.
"When will our research be confirmed by international organizations?" Lin Bohan asked with concern.
Wang Hao thought about it and said, "One month?"
Birkar shook his head and said, "It will probably take longer. Princeton said it will take a month, but I think it will take at least one and a half months or more."
"So long?" Lin Bohan grinned hard.
Bill Carr said, "You should know the difficulty."
"really."
Lin Bohan nodded and suddenly became energetic, "In other words, it took us about three months to complete the research. Princeton just needs one to two months to understand the results..."
"Speaking of it, it seems incredible..."
"I think so."
"It feels so strange..."
Birkar and Luo Dayong both found it incredible that the research, which took a total of three months to complete, would take more than a month to confirm the results.
Then……
They looked at Wang Hao together.
Throughout the entire research process, the main direction was controlled by Wang Hao, and many ideas and ideas were directly related to Wang Hao.
At this time, they finally understood why Wang Hao's research speed was so fast and why one person could produce so many great results.
If we really call him a genius, only Wang Hao can live up to his name!
…
Wang Hao doesn't care about "genius or not".
Weakening the Hodge conjecture is just a "means of expression". He is more concerned about the content of the experiment.
The time has entered the end of the year.
Wang Hao notified everyone in advance that he would not take vacations during the Chinese New Year. Of course, several times the overtime pay would be necessary. He hoped to complete the research as soon as possible. As for the research on CA005, he couldn't wait any longer.
A large amount of materials were transported to the Antigravity Behavior Research Center.
A large amount of equipment was also shipped in.
In order to facilitate the latest experiments and consider confidentiality issues, the side of the Antigravity Behavior Research Center facing the school was simply enclosed by a fence, leaving only a small door for one person to pass through, and the other side was opened.
On this day, the research center conducted the first experiment, which was still a spiral arrangement of materials. The result was an anti-gravity value of 81.3%.
Immediately after that, three experiments were conducted, with only one day between each experiment.
The three experiments are all basic experiments for collecting data.
The main data includes anti-gravity intensity, anti-gravity field coverage and magnetic field, instrument and other data corresponding to the current intensity.
After completing four consecutive experiments and having enough data basis, Wang Hao immediately held a demonstration meeting and designed a new plan.
"This plan is still based on the spiral structure, adding circular protrusions behind each 360-degree spiral pattern."
"The material structure is on the one hand, and the other is the control of the current. We need to study the impact of ultra-high current intensity on the AC gravity field."
"Besides, I need..."
Wang Hao made a summary of the experimental design, and then the experimental team started to run up and down and began to prepare for the experiment.
Work.
In preparation for the experiment, the most important thing is to shape the shape of CA005.
In this regard, you still need to cooperate with the factory for special manufacturing, and you need to wait for more than a week to half a month.
The time happened to be the prelude to the Spring Festival, so Wang Hao simply gave everyone a holiday so that everyone could celebrate the New Year with peace of mind.
Years later.
The materials created by the factory have been delivered, and the experimental team reunited to start a new experiment.
Everyone is looking forward to the experimental results very much.
With everyone's attention, the results of the experiment were also very amazing. Liu Yunli reported the data with excitement, "In this experiment, the anti-gravity strength we detected was..."
"90.3!"
There was a burst of exclamation in the conference room. Even if the value has reached 80, exceeding 90 is a huge improvement.
Every one percent increase in the current anti-gravity value can be said to be of great significance.
From 80% to 90%, it is not just ten points, but a gap of double.
For example, if a one-hundred-ton object loses 80% of its weight, the remaining weight will be twenty tons.
Ninety percent weight reduction, leaving only ten tons.
Ten tons and twenty tons are twice as different!
If an aircraft is manufactured and the weight is reduced by 90%, the load capacity will naturally be doubled compared to 80%.
He Yi swallowed and said, "This can already be called anti-gravity aviation technology, right?"
Wang Hao was also very excited, but he still thought about it and said, "Theoretically, there should be room for improvement."
"I think the limit value should be close to 93 percent, but the theoretical limit should not be reached, and experimental verification is needed."
"However, this data can also be reported."
After he finished speaking, he asked Liu Yunli to write a report, and then handed over the work, "Let the material team continue mass production, we still need more CA005."
"At this point, it's time to consider applying..."