51.32!
This value made everyone involved in the experiment take a breath of cold air.
The intensity of the AC gravity field exceeded 50%, which was of course a very significant achievement. After the experimental data was compiled, the data was immediately sent to Wang Hao.
At the same time, the experimental results were also reported to superiors.
The direct superior of the experimental team, Deputy Director of the Bureau of Science and Industry, Zhou Minhua, had just completed the discussion with the American team and was immediately shocked when he received the news.
The technology provided by American can create 25% of the AC gravity intensity. The new technology will definitely bring improvements to research, but I did not expect it to bring such a big improvement.
"Is it because during the communication process with the other party, Professor Wang Hao learned the other party's key technology from a few words of the other party?"
Zhou Minhua thought thoughtfully, "Or maybe Professor Wang Hao has any breakthrough research?"
She couldn't figure it out.
On the other hand, Wang Hao also got the experimental results and detailed data. He was also a little excited that the intensity of the AC gravity field could be increased to more than 50%.
This value was higher than expected, and it also gave him a better understanding of the AC gravity experiment, or in other words, the microscopic morphology within the single-material conductor he was studying.
If we compare the microscopic morphology to a three-dimensional figure, the microscopic morphology inside some materials is a symmetrical figure in all directions, while the microscopic morphology of some materials is not symmetrical, such as having bulges in one direction.
When the temperature drops to a certain level, the microscopic morphology within the conductor will break, and a certain field force will be emitted to the surroundings. The field force emitted by the symmetrical pattern is very balanced.
For example, if a field force of 100 is emitted to the left, it will also emit 100 field force to the right.
This cancels out.
The microscopic shape of some materials is asymmetrical, emitting 100 field force to the left and only 20 to the right. A special field force that can be detected will appear on the right side.
This is the principle behind the formation of communicative gravity.
Now their experiment is to amplify this imbalance.
If it is a complex material, because the elemental composition of the material is different, the microscopic morphology formed will definitely be very different. Each material needs to study the corresponding material layout in order to continuously strengthen the special field force.
Therefore, they are only targeting single metal materials. There is only one kind of atom inside the material, and the internal microscopic morphology is likely to be similar. If they find a way to maximize the superposition of the field force in one direction, they can continuously increase the intensity of the AC gravity field.
"The value of fifty points is probably close to the limit of elemental metal, right?"
"If it were replaced by a complex material, it might be even higher. The microscopic shape of elemental metal is relatively simple, and it is impossible to form too large a convex layer. It is quite remarkable to be able to reach this value..."
This is a pity.
Although research has indeed made great breakthroughs, the improvement is only theoretical, and technically it has reached a bottleneck.
"So next, we must find a universal geometric topology method to cover the semi-topological expression of all microscopic forms. Otherwise, if compounds or more complex molecules are involved, it will be impossible to shape the microscopic forms..."
Next, Wang Hao paid more attention to the research on semi-topology.
He still did research with Lin Bohan, and when he encountered some problems, he would ask Bill Carr via email, because some problems could not be solved by an email, and they began to discuss continuously.
Sometimes, they even communicate on the phone to discuss.
Because math is very complex.
Sometimes, discussions would encounter problems, and both Birkar and Wang Hao felt very inconvenient.
Wang Hao invited Bill Carr to Xihai University to discuss the problem face to face, and also invited him to join his research, "Coucher, you must be very interested in this research. We can do this research and this project together." "
He emphasized one sentence in particular, “This is very important research, and it will become very attractive and will immediately attract the attention of the world.
Bill Carr was a little confused.
Of course he knew that Wang Hao's geometric shaping work seemed to be related to the topological mechanism of superconductivity.
The law of superconductivity has also caused international excitement.
However, using algebraic geometry to study semi-topological systems does not seem to be directly related to Wang's geometry. It is only a study of mathematical properties. Why has it attracted world attention?
…
Bill Carr soon found out.
In mid-December, a piece of blockbuster news about physics research emerged internationally.
China's Superconducting Condensed Matter Physics Research Center and Amerikan Los Alamos Laboratory also announced a message that they will release research information on the "AC Gravity Experiment."
At the same time, theoretical content related to AC gravity experiments and superconducting mechanism research will also be disclosed.
As soon as this news came out, it immediately aroused international heated discussion. The initial focus of the hot discussion was that the Alamos Laboratory and the Superconducting Condensed Matter Physics Research Center would announce the same news. Naturally, the two parties had communicated with each other. .
In addition, both research centers must have conducted AC gravity experiments.
Alamos Laboratory is a classified laboratory. It once participated in the Manhattan Project and was engaged in the research of high-end weapons.
Some of their research content has nothing to do with high-precision weapons, but it is also confidential research.
The Superconducting Condensed Matter Physics Research Center is a new scientific research institution established for more than ten years. It has always been very low-key and does not seem to have any major projects.
Now you are actually saying that you want to publish a confidential study?
This is a bit confusing.
After many media reports, the focus of public opinion became the AC gravity experiment. There is still some public information internationally, and it is easy to know what the AC gravity experiment is.
Three words, anti-gravity!
This is definitely very cutting-edge research, and judging from the state of the two laboratories, there must have been some progress in research.
They released information on anti-gravity research at the same time, and there must have been some communication.
Many people have begun to look forward to it, "The AC gravity experiment is the research of anti-gravity. Will we be able to ride on anti-gravity vehicles in the future?"
"This technology is too high-end. I didn't expect that there are already laboratories conducting confidential research."
"Now it's made public?"
After a lot of discussion, just one day later, the official websites of the two laboratories released the same information. They each provided a link through which relevant materials could be downloaded.
This includes the content of open AC gravity experiments, as well as the research on the superconducting mechanism linked to the experiments.
The AC gravity experiment is a basic theory and basic experimental structure, which can create 15% of the AC gravity field strength.
Experimental connection with the study of superconducting mechanisms involves experiments combined with analysis of microscopic morphology, including some deduced theoretical explanations, basic analysis methods, etc.
These theoretically related materials can be regarded as a paper, and the author has only one name - Wang Hao.
When other institutions obtained the data for analysis, they were surprised by the results of the AC gravity experiment, and they were also surprised by the research on superconductivity combined with the experiment.
Wang Hao's previous paper published in Nature magazine published the results of the law of superconductivity. After carefully studying the results, many physicists felt that a part was missing.
They thought it was just that the experiment was not introduced in detail, but they did not expect that it involved the study of AC gravity.
Now the research is out.
Although I don’t know how much content has been announced, at least the theoretical content is complete.
that's enough.
Suddenly, many institutions in the world are preparing to join the ranks of research on superconducting mechanisms based on AC gravity experiments.
Many physicists have expressed their opinions, "This will become the most interesting research!"
"Based on antigravity research and trying to understand the mechanism of superconductivity, this is the first time I discovered that physical experiments can be so cool!"
"I can not wait any more!"
"We first need to form a team, and my team is still not large enough. I think the main direction of this research is the expansion of Wang's geometry..."
"Wang Hao came up with the theory, but everyone needs to work together to improve it."
"It's inevitable."
A large number of relevant reports have appeared internationally, and domestic reports are even more enthusiastic. Because the theory was proposed by Wang Hao, it is equivalent to leading the research direction in China. Many people feel a sense of pride when they think about it.
But in fact, research has nothing to do with ordinary people, they can only discuss and look forward to it.
The direct reaction in domestic scientific research is that major institutions that control scientific research funds have begun to discuss investing funds in research in new fields.
This is the core.
Because the relevant information has been made public, not only the physics laboratory will conduct research, but other superconducting and condensed matter physics laboratories will also definitely apply for related projects.
In the more popular directions, it will definitely be easier to apply.
Many teams related to condensed matter physics have begun to carefully study public information and prepare for new project applications.
New fields and new directions are definitely more likely to produce results.
Some older scholars couldn't help but recall the scene in the late 1980s.
At that time, there was a competition in superconducting research all over the world. There were nearly 300 participating research teams. The domestic economic strength was somewhat worse, but there were also several teams joining in.
It was a crazy era, with reports of superconducting progress everywhere, as if the problem of room-temperature superconductivity would be solved in the next moment.
Now a large number of institutions are preparing to invest in the research of superconducting mechanisms based on AC gravity experiments. Will there be more outstanding research results?
For example, using mechanisms and applications to develop superconducting materials close to room temperature?
That’s when technology takes off!
…
Research on AC gravity is being reported all over the world, and research on superconducting mechanisms is being discussed. Many research teams are sharpening their knives and preparing to join research in new fields.
As the proposer of the new theory, Wang Hao did not continue relevant research.
He mainly studies theory, rather than joining the "superconducting craze" to improve the mechanism or try to make new discoveries based on probabilities.
The efficiency of doing research that way is really low.
Other small research work can be left to the physics laboratory, and Liu Yunli's team can also cooperate to continue research.
Wang Hao continued the semi-topological construction work.
Because he was only engaged in pure mathematics research, his work was somewhat leisurely, and he still had time to participate in meetings held within the school.
This time is a school development meeting.
Xihai University hopes to expand the scale of the Faculty of Science, or simply develop the Faculty of Science.
Wang Hao's influence is too great.
Just relying on his personal influence, the School of Science can slowly develop, and the school will also allocate resources. They are planning to establish a mathematics research center, directly named "Wang Hao Mathematics Center."
Afterwards, there was a discussion around the Mathematics Center, and the topic also involved talent introduction.
If a college wants to develop, the first priority is its faculty, so it must attract more talents.
How to attract talents?
"Projects, benefits and future!" As the dean of the School of Science, Luan Haiping mentioned the three most important points in his report.
Project, that is, funding and research content.
If it can be supported by big projects, it can attract more talents to join it.
Needless to say more about the treatment.
The future is the hardest thing to say. There are big projects to participate in, but it does not mean there is a future, because many people join the project and only do side jobs, and some projects are like working for a company and cannot lead the way. to directly improve.
They must have big projects with R&D goals, and those involved can pursue results, in order to become more attractive.
Wang Hao also participated in the discussion. He only talked about projects in cooperation with the space agency.
This project can attract some talent.
There was no further participation after that.
The development of a college is not something he is willing to think about. He is only interested in the mathematics center. If he can build a mathematics center around himself and attract many talents to join, there will be no big projects that cannot find people. Case.
After the meeting was over, when Wang Hao walked out, he specifically asked Luan Haiping, "Dean Luan, I would like to invite a mathematics professor to come over. Does the school provide corresponding treatment?"
This must be asked in advance.
Xiang Qiansheng, Lin Bohan and others also came to Xihai University before, but they only received normal treatment, similar to other professors in the School of Science.
If it were Bill Carr…
Wang Hao still had to ask clearly in advance, because Bill Carr was a Fields winner, and his personal treatment would not be the same as that of ordinary professors, at least not much lower than Mizuki's standards.
Otherwise, he would not even be able to say the words to invite Birkar.
How to say?
Let the other party come and significantly reduce their treatment?
Scientists are human beings too and have to live!
Luan Haiping thought Wang Hao was talking about "Tian Hong". He already knew the news. Tian Hong, an outstanding mathematics professor at Capital University, might come to Xihai University in the next year.
He said nonchalantly, "That's no problem. Our college just wants to develop and attract more talents. The school will naturally give better treatment."
"That's good!"
Wang Hao felt relieved now.
…
Two days later.
Birkar took a plane and came to Xihai City.
Wang Hao attached great importance to Birkar's arrival. He asked Lin Bohan to help pick him up at the airport while he waited at the school gate.
soon.
Birkar was taken to Xihai University. After he got off the car, he met Wang Hao.
The two exchanged a warm hug.
"I have been looking forward to it for a long time. I hope to discuss semi-topological issues with you." Wang Hao smiled enthusiastically, and then walked into the school with Bill Carr.
When walking through the Academic Affairs Building, Zhu Jianrong happened to walk out of the door of the building. He saw Wang Hao and said hello, and then looked at Birkar next to Wang Hao.
Foreigner?
Zhu Jianrong took another closer look and suddenly felt familiar, as if he had seen it somewhere.
"Where have you seen it before?" He couldn't remember it for a while. When Wang Hao and Bill Carr disappeared around the corner, he suddenly thought of a name.
Coucher-Bill Carr?
Fields winner?
He suddenly opened his mouth wide with surprise on his face, "Why did this big guy suddenly come to school!"
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