Chapter 207 Seven experiments, completed research, one spit
Nail? Wang Hao: Atmosphere!
The theory of annihilation topological phase transition sounds really complicated and a bit elusive.
In fact, it can be easily understood by giving examples.
Duncan-Haldane's research theoretically discovered the topological phase transition within superconductivity, which can be simply understood as his discovery of 'microscopic morphology being squeezed'.
The microscopic morphology is squeezed, and combined with other factors, superconductivity is formed.
Wang Hao went further to understand and study 'the reason why the microscopic form is squeezed', that is, 'the annihilation force squeezes the microscopic form', and then the change of the microscopic form has other effects, which is the formation of exchange gravity. field.
This is like a ball exploding. Duncan Haldane discovered the ball explosion, while Wang Hao studied how the ball exploded and the impact of the explosion and the external impact.
Cause and effect are very important.
After the theory has been set up, the study of physics must be carried out through experiments.
After Wang Hao determined the research and development direction, he discussed it with Xiang Qiansheng, He Yi, Xiao Xinyu, Yan Jing and other laboratory researchers, talked about the main research direction, and then let the laboratory start preparations.
At the same time, a report was also made to the relevant departments.
A large part of the research on AC gravity experiments must be kept confidential. In the direction related to the superconducting mechanism, the intensity of confidentiality is not high. However, the intensity of AC gravity, that is, the research direction of anti-gravity, must be kept absolutely confidential.
The two research directions are different, but the experiments they conducted are very similar.
Therefore, before starting the experiment, a formal report should be made, and the relevant departments may also send people over. On the one hand, it is to ensure the safety of the experimental data, and on the other hand, it is also convenient to report the data directly.
The confidential R&D organization for this project is a R&D department called ‘244 Factory’.
Factory 244 is just a code name, but it is actually a large-scale scientific research department that works on major confidential projects.
After the report, only two days later, someone from Factory 244 came.
A small team came, and the main leaders were two researchers, one was Ruan Weiping and the other was Wang Qiang, both middle-aged men in their forties or fifties.
Wang Hao greeted several people into the laboratory, and after some pleasantries, he also talked about the research project on communication gravity.
Ruan Weiping said, "Originally only Wang Qiang came this time, but we happened to receive news from the Basic Science Center of Capital University that their research and development has also made progress."
"Oh?" Wang Hao felt a little surprised.
Ruan Weiping continued, "I will always be here and participate in your experimental research until this stage is completed. Wang Qiang is going to the Basic Science Center next week to see the situation there."
Wang Hao didn't care about the research of the Basic Science Center. He was a little curious as to why two researchers were sent out to directly participate in the experiment. He simply asked, "Why did you directly participate in the experiment?"
"I mean, isn't your department doing its own research?"
Wang Qiang sighed, "It's not because the research is stuck."
He said in a sighing tone, but his expression was obviously very proud, "We have done many experiments, and the intensity of the communication gravity field has also improved with the experiments, but in the last three experiments, it has not improved."
"After discussion, we believe that there is not enough theoretical support to achieve this level of strength technically, which is already the peak."
Wang Hao became even more curious. He asked in a low voice, "Can you tell me more specifically? How high is the intensity?"
Wang Qiang glanced at Ruan Weiping and whispered a number in Wang Hao's ear, "Ten percent."
After he finished speaking, he raised the corners of his mouth, thinking that Wang Hao would be surprised.
As a result, Wang Hao nodded calmly and gave a simple evaluation after a long time, "Not bad."
Wang Qiang and Ruan Weiping looked at each other and felt that Wang Hao was probably afraid that others would see it, so they suppressed their surprise.
They are very proud of this data.
They obtained the data related to the AC gravity experiment, and used the 'AC gravity field strength 6%' as a starting point to conduct research and development from a technical perspective. It only took more than three months to improve the intensity of the AC gravity field.
More than ten percent.
This data can be said to be a remarkable achievement.
Because of similar research, generally speaking, the higher the value, the harder it is to break through. The intensity of the AC gravity field ranges from 2% to 6%, and from 6% to 10%. The difficulty is not at the same level at all.
This research is very interesting. Physics experts in the institute are very interested in it, and many people come to participate.
They worked together to demonstrate and revise the technology together, which resulted in a great breakthrough in the technology.
However, after the intensity of the AC gravity field reached 10%, several experiments were conducted in succession, but there was no further improvement.
That's why they came out.
The physics laboratory of Xihai University is preparing to conduct research in another direction of the same experiment. The experimental process and data will definitely have certain reference value, and every experimental data is very important.
Later, I heard that the Basic Science Center of Capital University also reported that it had done the same research and that there had even been some breakthroughs in the research. They also wanted to send people there to take a look.
When Wang Hao heard what Wang Qiang said about the 'high value', he didn't even feel the slightest bit of emotion. Even his subsequent comments were polite in nature.
He really felt that ten percent was not high.
Wang Hao, Ruan Weiping, and Wang Qiang have different understandings of the strength of the AC gravity field.
In Wang Hao's view, in terms of research and development, it is more difficult to increase from 2% to 6%, because the initial value of the AC gravity experiment is a little more, and 2% is the initial data.
When two starts to improve, it can be understood as a breakthrough from zero to one.
Six to ten percent are all subsequent expansions.
With so much data support in the early stage, it can be achieved slowly by doing normal research.
Wang Hao then explained his research ideas, "We are conducting research in the direction of superconducting mechanisms, but the experiments are the same. We first have to do research in the direction of the field force of AC gravity."
"Such research can help us better understand the topological phase transition morphology and direction inside superconductors, so that we can find out the regular mechanism."
"If we can figure out some mechanisms, we can use them to design experiments..."
Wang Hao explained it carefully and wanted to ask the two of them what they thought.
Ruan Weiping immediately said nonchalantly, "Professor Wang, you can do whatever experiments you want. This kind of research cannot be carried out at all if there are restrictions."
"We still understand this truth."
"In the experiment, we just watch, record, or participate, but we will not interfere with your ideas and experimental methods."
This gives research autonomy.
Wang Hao felt relieved after hearing this, and immediately called on others to continue preparing for the experiment.
Everyone else is busy.
Ruan Weiping and Wang Qiang just came to the laboratory and did not know the details. They just sat and watched and talked in low voices.
Ruan Weiping asked, "Did you hear the theory Professor Wang just said?"
Wang Qiang nodded, "I was very confused when I heard it just now. What's the topological phase transition inside a superconductor? It seems to be the theory of an Amrican scientist, right?"
"Nobel Prize winner in physics, Duncan Haldane." Ruan Weiping said directly, "I have read his research, which uses topology to explain the thin-layer conduction phenomenon, as well as some other microscopic theories."
"However, I don't believe in this theory. Topology is a concept in mathematics. It only uses topological methods to explain condensed matter physical phenomena, rather than the actual topological phase transition occurring inside superconductors."
"As for annihilation, it seems to be Wang Hao's own theory? In other words, he combined his own theory with Duncan Haldane's research to come up with a new theory?"
"this……"
Wang Qiang thought about it and made a comment for a long time, "The theoretical mechanism of superconductivity is introduced into topology, and combined with his own understanding...it's very thoughtful."
Ruan Weiping also nodded in approval, "It's indeed a great idea!"
They do not believe in Wang Hao's theory, but they will not get involved in the research. What they recognize is that Wang Hao's research is very novel.
Novelty is something worthy of recognition.
Domestic academics lack innovation. This is a problem created by the academic environment. There is a lack of innovation. One problem is that some young scholars do not have a high degree of freedom to engage in scientific research.
To put it bluntly, “Young scholars cannot study whatever they want to study.”
A very simple example is that the research done by Duncan Haldane and his colleagues would have been impossible to obtain funding in China, and it would have been impossible for him to apply for approval.
Their research is considered "crazy" by their peers. When making a project report to apply for funding, review experts will have the same view, and the project will naturally not be approved.
It is very difficult to apply for funding for such unorthodox research.
However, only young people have innovative ideas, and innovative ideas are new research. However, young people are the most difficult to obtain funding. They must apply for research that is consistent with common sense.
This is one of the reasons why academics lack innovation.
Now Wang Hao's research sounds very deviant. He actually used his own theory and combined it with a "very deviant" content to invest a lot of money in experiments?
If it were anyone else, they might be labeled as having used funds indiscriminately, and it would be difficult to continue research.
However, Wang Hao is different.
He has long passed the 'young' stage and has become one of the big names in the academic world.
No matter how unconventional his research is, he can still apply for appropriate funding, and he can no longer be restricted by rules and regulations.
…
The experiment officially begins.
Before the experiment started, there was still a theoretical meeting, but the theoretical meeting was different from before.
Wang Hao did not ask everyone to demonstrate how to improve the strength of AC gravity. Instead, he asked others to study novel superconducting material layouts. Starting from the layout of various superconducting materials, they conducted unified data analysis and studied ultra-large
Relationship between material layout and AC gravity strength.
One experimental meeting determines the contents of the next seven experiments.
"We have to complete these seven experiments within two weeks."
"Everyone, please try your best."
"We have more refined data, especially on the strength of the AC gravity field."
Conducting seven experiments in two weeks is definitely very intensive, because the preparation of the exchange gravity experiment and subsequent data collection take a lot of time.
Everyone cheered up.
A test was conducted the next day, and the final AC gravity field strength was 5.3%.
This value is relatively low.
When Ruan Weiping and Wang Qiang looked at the experimental results, they also showed expressions of "Sure enough," which was the same way when they first started doing research.
Even if there is enough data to support it, it will be difficult to increase the intensity of the AC gravity field through further experiments.
Later, a group of people made serious arguments.
Every time you enter the previous data, you have to study it for a long time before deciding how to conduct the experiment.
This will slowly improve it.
Wang Hao didn't care. He just asked others to conduct normal data collection, and then began to do research on his own.
Create a task——
【Task 3】
[Research project name: Construct a mathematical model of the superconducting mechanism based on the AC gravity experimental data (1). (Task difficulty: D)]
[Inspiration value: 0.]
When conducting relevant research in the capital, the difficulty level of the research and development tasks was C, mainly because there was a relatively large amount of data.
Now we are only studying the data of an experiment, and the difficulty has been reduced to level D. It is relatively easy to do data statistics and build models.
Because he already had a more complex experience, Wang Hao completed the research in only two hours.
Three days later, the second experiment was conducted.
Wang Hao did the same mathematical work again and established the mathematical model again, but combined the model with the previous one.
Another two days, the third experiment...
the fourth time……
the fifth time……
For two weeks, Wang Hao stayed in the physics laboratory every day, either doing experiments, doing data analysis, or arranging other people's work.
Every experiment is a small piece of research for him.
Completed carefully every time.
This lasted for two weeks, and a total of seven experiments were completed.
…
During the entire experiment, Wang Hao, Xiang Qiansheng, He Yi and others participated in the entire process, but the relevant mathematical work was completed by Wang Hao alone.
Others are only responsible for experimental demonstration and experimental records.
Ruan Weiping also participated in the experiment. He also made a small suggestion during the theoretical meeting, but Wang Hao politely rejected it.
That suggestion is the 'correct' way for Factory 244 to 'increase the strength of the AC gravity field'.
After that, Ruan Weiping stopped making suggestions. He just compiled the experimental reports and sent the experimental data to the 244 factory.
These are also helpful to their research.
The physics laboratory conducted seven consecutive experiments, and the experimental results were as Ruan Weiping expected. The first time of 5.3% was not the lowest, and the subsequent one was 3.1%.
The highest value appeared in the fifth experiment, with a value of 6.4%.
In fact, Wang Hao also explained the purpose of the experiment to Ruan Weiping, "We are not pursuing high AC gravity field values, but we want to build a corresponding data model based on these experiments."
"This is directly related to studying the topological effects inside superconductors."
"I need to improve the relevant mathematical framework and use it as theoretical support to conduct subsequent experiments."
Ruan Weiping can understand, but he doesn't believe in 'annihilation, topology'.
The theoretical content is indeed important, and their research lacks theoretical support, but he believes more in the normal explanation of the direction of condensed matter physics, rather than the mathematical explanation similar to 'theoretical physical analysis' using complex topology.
Wang Hao doesn't care whether Ruan Weiping understands or not.
He just does research normally.
After submitting the seventh D-level small research task, he checked the system tasks and couldn't help but smile.
【Task 3】
[Research project name: Exploring the manifestations of space annihilation force (Difficulty: S).]
[Inspiration value: 100.]
Finish!
Now he has understood the manifestation of the annihilation force in the superconducting state space, which is to squeeze the microscopic morphology to form a topological phase transition inside, and thus a very special AC field force appears.
In fact, it can be understood this way.
The microscopic morphology inside the superconductor seems to form something like a 'mass unit', which will be subject to the overall spatial squeezing force.
When the space squeezing force squeezes the microscopic form, a microscopic 'topological phase transition' will occur, just like a ball being squashed.
The 'qi' that leaked out later formed an exchange gravity field.
"So the AC gravity field is aimed at the squeezing force of space. It does not isolate the gravitational force, but reduces the squeezing force of space, which means directly reducing the mass of the internal matter."
This is very critical.
Anti-gravity can be achieved in two ways. One is to isolate the effect of gravity, and the natural gravity will be reduced accordingly.
One is to reduce mass.
Communicating gravity fields belongs to the latter method. Reducing the role of matter and space directly reduces the mass of matter.
After understanding the underlying principles and combining the mathematical models established through several experiments, Wang Hao was immediately ready to verify the results. He quickly called everyone in the laboratory for a meeting.
Later, considering confidentiality issues, only a few core people were called together.
Of course, including Ruan Weiping.
Ruan Weiping was the first to come. He was the most laid-back person in the laboratory. After arriving, he sat next to Wang Hao.
Wang Hao was somewhat looking forward to the new verification experiment. Seeing Ruan Weiping suddenly realize the problem, he couldn't help but whispered, "Professor Ruan, I have a question, I must ask it in advance."
"What's the problem?" Ruan Weiping said nonchalantly, "Professor Wang, just say it, you're welcome."
"That's right."
Wang Hao hesitated for a moment before asking, "We are conducting research on superconducting mechanisms. If the AC gravity field created in the experiment exceeds the strength of your results, is it okay?"
He once asked Academician Wu Hui the same question.
Wu Hui said at the time, "That must be a great achievement, and they still hope to be surpassed!"
However, Wu Hui does not represent the attitude of Factory 244.
Ruan Weiping was stunned for a moment, and then said nonchalantly, "What does this have to do with anything? We are all doing research, with different directions, but the experiments are the same."
"You can just do the experiment, I'm right here."
"If you can surpass us, we will move our research to this area and use it as a project for you!"
"real?"
Ruan Weiping patted his chest grandly and said, "When I speak, Ruan Weiping spits out foam and nails!"