Genius of the Rules-Style System

Current energy and space research is carried out in cooperation with domestic and foreign institutions. All members of the theoretical team have entered the Energy and Space Research Center and become the technical backbone of the research center.

The Energy and Space Research Center is a newly established institution that is responsible for research related to energy and space. The research includes not only current material experiments, but also the ongoing research on the physical properties of the Z-wave region.

The two together cover a very large scope, including space link transmission technology, Z-wave generation technology, anti-gravity technology, etc.

The Energy and Space Research Center can be said to be a research and development institution for various latest technologies.

Under the Energy and Space Research Center, it includes the Z-wave experimental group, the space information technology research and development team, and the material transport experimental committee.

The current matter transfer experiments are under the responsibility of the matter transfer experiment committee. The four core members of the theory group are all members of the matter transfer experiment committee, and Zhao Yi is the head of the committee.

Because it is an international collaborative research, representatives from other teams will also serve as committee members.

The Experiment Committee is not in a political sense, but is directly related to the experiment. The committee is responsible for the design work related to the experiment. After the experiment, it is responsible for listening to the reports of each team on data detection, and reviewing and summarizing the overall data of each team. , analysis, etc.

In the process of researching experimental data, each team may also draw some conclusions based on the data obtained.

These conclusions belong to the discovery team, followed by the material transport experimental team.

As a metaphor, the material transport experimental group is equivalent to a scientific research institution. Each team includes participating scientists, just like the scientists of the scientific research team. Some of their research findings belong to the experimental group, but the honor still belongs to each team and personal.

This also promotes the enthusiasm of various teams and participating scientists to invest 100% in research, hoping to make discoveries in new fields and obtain some results of teams or individuals in research and development.

After the first test experiment, each team devoted themselves to analyzing the data. Several people in the theoretical group were members of the experimental group committee. They and other members of the experimental group committee did not need to do anything initially. Just wait for the reports submitted by each team to be reviewed.

The report hasn't come out yet, and several people are very leisurely.

The same goes for other committee members.

There are eight people in the Experimental Committee. In addition to the four core members of the theoretical group, there are also Horst Ludwig Sturmer, Ben Bradd Cermicky, Bertram Brockhaus and Gerard ter Hooft, they are not elected committee members, but elected by various core teams.

In fact, there is no need to recommend them at all. Each of them individually is a well-known figure in the field of physics. Three of them are related to quantum physics and have won the Nobel Prize in Physics. The remaining Chermiki is also Phil. This is the recipient.

Among the four people in the theoretical group, there is no Nobel Prize winner in physics, but Zhao Yi’s influence goes without saying. Qiu Chengwen and Edward Witten are also Fields winners, which means Zhang Qican is slightly less famous. , but because of his last research paper, he has become very famous around the world, and is considered to be second only to Zhao Yi in the theoretical research level of the latest technology.

The eight people on the experimental group committee are all quite influential, which is enough to show how attractive and important the matter transmission experiment is.

You know, there are several institutions and many top physicists who want to participate in the experiment, but they have not been able to pass the review and have been directly rejected.

Experiments are not something you can participate in just because you want to.

While each team is working on data, several people on the committee are also doing work. Some of them are helping their teams with data analysis work, while others are doing their own research.

For example, Edward Witten.

There are two large teams in China, the Academy of Sciences and the Z-Wave Data Group, involved in data analysis work. There are also other people under the theoretical group who are also doing related work. The four core members of the theoretical group are committee members and do not need to be directly involved in data work. , the short period of time after the experiment ended was relatively leisurely.

Edward Witten started his own research or put away his studies. He didn't know much about the theories related to the latest technology, so he hoped to strengthen his understanding of the relevant theories.

When he encounters a question he doesn't understand, Edward will also ask Zhao Yi directly.

Such was the day.

Zhao Yi is still quite busy at work. After the experiment, he was communicating with the team of the Space Information Technology Company, hoping to continue to reduce the transmission range of the space connection equipment.

This is a technical question and is directly related to the experiment.

Edward Witten found Zhao Yi and asked a question that Zhao Yi could not answer.

"I know that the anti-energy barrier appears because space instantly absorbs a large amount of energy and absorbs it quickly. When it reaches a limit, the barrier that isolates the space will be opened."

"In addition, when the anti-energy barrier is opened and the speed of energy absorption reaches another limit, it will erupt in the form of Z waves."

Edward Witten said and sighed, "It sounds like an explosion of sunspots. I really wish I could see it live."

Zhao Yi nodded, "You're right, it's roughly like this."

Edward Witten continued, "However, I have not seen similar records or theories regarding space link technology. What I mean is that space link technology will also overflow energy for space to absorb, right?"

Zhao Yi hesitated for a moment, then nodded, "Yes."

"During the process of spatial connection, what will happen if the overflow energy, that is, the speed at which space absorbs energy, reaches a limit?"

This question stunned Zhao Yi.

Space connection technology and anti-gravity technology are not related. They can be said to be two different space technologies. Space connection technology was discovered during the anti-gravity experiment.

During the anti-gravity construction process, when the overflowing energy reaches a limit value, an anti-energy barrier will appear.

Then during the process of space connection construction, the speed of overflowing energy reaches a limit value, and theoretically something will happen.

But what happens?

Zhao Yi thought about it carefully and found that this question was very strange, because he had never considered a similar question before.

This is probably related to the research process.

In the process of theoretical research on space connection technology, he also needs to conduct research in many other directions, because space technology is a brand new field and there are too many research directions.

After constructing the theory of spatial connection, the theory was directly transformed into technology, which could produce related spatial connection equipment. Later, it slowly developed and the technology gradually improved and became more and more mature. Later, space energy transmission technology appeared. .

Everything went very smoothly and there were no direct obstacles.

He simply did not consider the problems caused by energy overflow. Probably the main reason is that the space connection equipment is relatively small and will not cause equipment overheating and cause link problems, so he did not think about related issues.

Now think about it carefully, what Edward Witten said is very interesting.

Zhao Yi said seriously, "I never thought of this before. Edward, you are such a genius. I think this is a good research direction."

"Really?" Zhao Yi's statement surprised Edward, "In other words, you have never thought about my problem?"

Zhao Yi nodded vigorously and admitted frankly.

Edward Witten was immediately interested and said, "Then let's study it together!"

"I think there will definitely be a discovery."

For the next whole day, the two of them stayed in the office together, discussing related theoretical issues. They continued to demonstrate, but it was too difficult to prove the results.

This is mainly because there is no experimental reference.

The discovery of the anti-energy barrier did not rely on theoretical derivation, but the discovery of the anti-energy barrier in experiments, and then related theoretical derivation based on the experiments.

Now there is no experimental reference, and we don’t know what will happen. Without any experimental findings, the theoretical research has no direction.

However, Zhao Yi became more serious about it. He even called Qiu Chengwen and Zhang Qican to do relevant research together. Everyone put forward their own ideas. Later, Zhang Qican made a suggestion, "There is no direction at all now, regardless of No matter how you say it, it seems to make sense, but there is no basis for any statement.”

"I think it can be like this. We find a direction, such as the empty hypothesis, and we do analysis under the framework of the empty hypothesis."

Zhao Yi nodded immediately, "This is a good idea. We can find a more accurate direction. For example, where does the overflowing energy go during the space connection process?"

This question soon had an answer.

Under the specifications of the void hypothesis, the overflowing energy is absorbed by the space and converted into a large number of voids, which greatly expands the space.

This is also easy to understand.

It sounds incredible that space will expand greatly after receiving a little bit of energy. In fact, considering the unimaginable size of the universe and the compressed space in space, the expansion rate can even reach billions, tens of billions, or even higher orders of magnitude. No matter how much space there is, it is understandable.

However, what is incomprehensible is that when so many holes fill the space, no space compression occurs.

Obviously.

This cannot be explained by the lack of spatial characteristics of holes, because during the anti-gravity construction process, the energy absorbed by space will reach an extreme value, indicating that there is an upper limit to the speed of energy absorbed by space.

So where did the hole go?

A new problem arises.

After several days of research without any progress, Qiu Chengwen simply made a suggestion, "I think it makes no sense to do theoretical research like this. Everything is just our guesswork. We use guesswork to construct relevant mathematics. If we want to Getting the answer is a matter of luck."

"That's okay, we make theoretical assumptions and look for experimental directions."

"We can try to construct a more stable connection, conduct relevant experiments, and hope to see something."

This is very practical advice.

Qiu Chengwen's idea is very straightforward, which is to construct a more stable space channel.

For example, the same link of ten cubic meters can be connected to ten thousand holes, one hundred thousand holes, or even one hundred million holes.

This is the enhanced channel.

Just like building roads, they are also standard two-lane roads. Some are very simple to build and may even be full of potholes, but as long as the road is relatively smooth, cars can pass.

Some are very gorgeous and wide, with very flat ground and railings in the middle. There are many trees on both sides of the road, and the environment has become very good.

The same roads that allow cars to pass are built to completely different standards.

When the channel is continuously enhanced and a critical value is reached, it is possible to see something in the experiment.

This is what Qiu Chengwen thinks.

Although the research direction has been determined, the research can only be temporarily shelved due to the work related to the material transport experiment.

Next, the theory team was very busy. They participated in the work of the experimental committee and listened to data research related reports from several teams.

During the work process, it is worth mentioning that there were some minor deviations in the data compiled by the HL team, which Zhao Yi immediately pointed out.

"Your final results were biased."

Zhao Yi said with certainty, "On the third page of your report, the particle data calculations were collected, and the solution results are not completely correct."

Discussions immediately broke out in the venue.

Each team will make data reports in the central conference hall. Team representatives will make relevant speeches, explain the calculation process of the submitted data reports, and elaborate on the analysis of the data calculation results.

The report will be submitted one day in advance, but because the data and calculations are very complex, the team needs to send a representative to explain in detail.

But when it comes to the calculation of a certain step, no one will see it so carefully.

Even if a similar problem occurs, it is generally difficult to point it out. The report will be transmitted to the Internet and the information will be disclosed to the partner agency.

Often when this step is reached, a specialized person will conduct a detailed study of the individual reports, and only then will the deviation in a certain calculation result be discovered.

Working with particle collision experiment data is almost like this.

Zhao Yi pointed it out directly at the meeting, which made people feel very shocked.

"How did he see the data error?"

"Did he carefully proofread the data the day before? But, that's impossible? How could he read so much data in one day? And also calculate them one by one?"

"It's amazing."

At this time, many people remembered that Zhao Yi is the most talented mathematician in the world. He has completed the proof of several top mathematical conjectures, and he has absolute authority in the field of data calculation.

Several people on the experimental committee couldn't help but exclaimed, "Zhao Yi, how did he do it?"

"He seems to be naturally sensitive to data and can see even the smallest error."

"I didn't notice that at all."

"To this day, I'm not sure that data was wrong."

"It's not an error, it's not completely correct. There is a certain deviation. It's just a range of data."

"But it will have some impact on the results."

In the end, they could only sigh, "As expected of Zhao Yi!"