Genius of the Rules-Style System

It is not easy to achieve a major breakthrough in Z-wave detection technology.

Zhao Yi has studied Z-wave detection technology. The detection technology used on spacecrafts was developed by him. The compression ratio detection method used is based on molecular substances that are not easily compressed and placed within the Z-wave range. By detecting the compressed magnification, the overall magnification can be obtained.

However, the compression ratio detection method is very limited. Up to now, it can only detect distances within 100 astronomical units.

100 AU sounds like a lot, it is 100 times the distance from the Earth to the Sun, but in fact, 100 AU is still too short compared to interstellar crossing.

The high-power Z-wave of the spacecraft, when turned on at its highest power, can allow the spacecraft to travel a distance of tens of thousands of astronomical units.

In other words, using the current Z-wave detection technology will limit the speed of the spacecraft to 100 times slower, because the Z-wave generating device needs to be recharged every time it is used, and the interval is relatively long, more than ten seconds. The position that can be achieved will take a month or even several months to achieve.

This greatly hinders the performance of the spacecraft and makes star crossing very inconvenient.

In fact, there is another Z-wave detection design scheme provided by the Institute of Information and Communications Technology of the Academy of Sciences, which uses magnetic field detection to achieve the purpose of detecting compression ratio.

Because the magnetic field absorbs Z-wave energy and is related to the compression ratio, magnetic field detection can be used to determine the Z-wave compression ratio.

This solution can theoretically achieve a distance of more than two hundred astronomical units. The solution was even studied for a period of time, but was eventually abandoned because the biggest problem with the magnetic field detection method is that the instantaneous high magnetic field will cause Spacecraft pose huge safety risks.

The outer layer of protection of a spacecraft cannot completely isolate high magnetic fields. The internal circuit system will also interact with high magnetic fields. The human body will also be affected by high magnetic fields and damage health.

etc.

In addition, another big problem is that the magnetic field will absorb the Z-wave energy, which will also reduce the Z-wave energy, thus greatly shortening the coverage distance.

This greatly limits the upper limit of magnetic field detection technology.

If magnetic field detection technology is installed on the spacecraft, it will be impossible to achieve a shuttle of more than a thousand astronomical units in the future.

Although there are various problems with the basics of magnetic field detection, being able to provide feasible solutions in the latest technical field is enough to prove the level of researchers.

When Zhao Yi decided to lead the theoretical group and the experimental group to jointly overcome the problem of Z-wave detection technology, his superiors directly dispatched a team from the Institute of Information and Communication of the Academy of Sciences, hoping to complement the theoretical group and conduct research together.

The team of the Institute of Information and Communications Technology is headed by Academician Huang Hongguo, a well-known communications expert.

In the field of electronic communications, Huang Hongguo is a very famous figure. The communication radar he led the team to research has been installed on some types of fighter aircraft.

At the same time, Huang Hongguo is also a theoretical physicist. Naturally, he has not done in-depth research on the latest scientific and technological theories. He not only has the achievement of 'magnetic field detection technology', but has also completed several extraordinary achievements by combining electronic communication and space link technology. Meaningful design.

The space connection equipment that is now commonly used on spacecraft and capable of voice communication contains the results of Huang Hongguo's team.

Huang Hongguo is also a very confident person who has made so many achievements in the latest technological applications and electronic communications. He also believes that he has in-depth research on the latest technological theories.

Of course.

Compared with Zhao Yi, he has no confidence. His many achievements are nothing in front of Zhao Yi.

However, Huang Hongguo led his team to support, and he still believed that it could provide great help. He even hoped to make a great contribution, or that he and his team could use the support of the theoretical team to complete ultra-long-distance Z-wave detection. Research on technology.

Before arriving at the experimental base, Huang Hongguo thought so and encouraged everyone, telling them that they must work hard and show the strength of the Institute of Information and Communications Technology.

Zhao Yi welcomed the arrival of Huang Hongguo's team. After all, the other party did have a certain level of strength, at least on a technical level.

If the core of the detection technology is determined, Huang Hongguo's team will be able to put it to use directly when it comes time to manufacture the equipment. They will definitely know the equipment better than a lot of theorists. After all, theory and technology are two aspects. It must be completely common, and converting theory into technology is a very big subject.

After welcoming Huang Hongguo's team, the research work officially began.

Zhao Yi held a meeting to discuss which step to start with research and development. Most of these meetings were directly decided by Zhao Yi, unless he could not decide to let others speak.

Others have long been accustomed to this pattern. Even Edward Witten and Qiu Chengwen will not say anything. They have been hit too many times and do not want to speak at all, especially in this kind of clueless research. They also had nothing to say.

Huang Hongguo is different.

The day before the meeting, he assigned work to everyone in the team. Everyone had to come up with a research direction and bring it together to the meeting.

In this way, the team can come up with several options, whether they are correct or incorrect, feasible or not feasible. Having ideas is better than having no ideas.

Huang Hongguo believes that this can demonstrate the strength of the Institute of Information and Communications Technology. He absolutely admires Zhao Yi. It can even be said that he has never thought of comparing himself with Zhao Yi, but other people in the theoretical group and experimental base can Not necessarily anymore.

For example, Edward Witten and Qiu Chengwen are both Fields winners and top theoretical physicists, but strong mathematical ability does not mean strong R\u0026D ability.

Now we are doing research and development, not mathematics or theoretical physics. They are more professional in research and development.

When the meeting officially started, Zhao Yi asked everyone if they had any ideas. In fact, it was a routine operation. There was no definite direction for similar cutting-edge research.

Whoever can come up with an idea that is very feasible is definitely a great thing.

Zhao Yi also wanted others to speak.

Unfortunately, generally not.

Maybe some people have ideas, but they only really speak out when they have no clue at all, and Zhao Yi also has no clue.

Obviously.

It's not that time yet.

But something was different this time. As soon as Zhao Yi finished speaking, someone raised his hand. It was an unknown middle-aged man. He had round eyes, like an old university professor.

Director Zhou! Huang Hongguo reminded.

Zhao Yi nodded and said, Director Zhou, please tell me. He looked forward to it.

Director Zhou began to make a 'report', I think we can do research and development from the direction of magnetic field detection technology. The magnetic field detection technology we designed, however, is limited by the influence of instantaneous high magnetic fields and cannot be used in practice.

We can design a protective device to block and isolate the high magnetic field——

He talked a lot.

Zhao Yi really couldn't stand listening, so he quickly interrupted and said, Director Zhou, your idea is very good. But what we are studying now is ultra-long-distance Z-wave technology, not a solution to block high magnetic fields.

I know the magnetic field detection technology, but with this solution, the performance of the spacecraft will be limited, and the maximum shuttle distance will not exceed one thousand astronomical units.

It will even be lower.

Director Zhou could only shut up in frustration. In fact, several people at the meeting felt that Director Zhou's direction was feasible. They could not develop ultra-long-distance detection technology that would allow the universe to travel hundreds of astronomical units at a time. It seems to be a good improvement.

Is there anyone else? Zhao Yi asked.

He thought no one else could speak, but someone else raised their hand and said, We had two detection plans before, one was compression magnification detection, and the other was magnetic field detection. Can we combine the two methods?

For example, particles in a magnetic field may undergo certain changes under high compression ratios——

Won't.

Zhao Yi said with certainty, The magnetic field will absorb the Z-wave ability, which will only make the internal magnetic field stronger. The influence on the particles is also the influence of the magnetic field, not the influence of the Z-wave.

If the Z wave affects the particles inside the magnetic field, it means that the magnetic field absorbs a large amount of energy and has even reached the upper limit of the design.

Obviously, it will have a very big impact on the Z-wave coverage.

After he finished speaking, he continued to look at the others, but someone else stood up, I think it can be measured by particle speed. Academician Zhao, I have read many of your studies, saying that within the Z-wave range, the maximum speed of particles will be greatly enhanced. . Then we can determine the upper limit of the maximum speed.

This is not possible!

Zhao Yi said with certainty, The maximum speed of particles will indeed increase greatly, even tens of thousands of times, or more. However, particles have mass, and acceleration requires driving force. In just a few seconds, Even within one second, how do you accelerate particles to their highest speed?”

——Isn't this something we need to study?

Zhao Yi planned, I think this research is much more difficult than ultra-long-distance Z-wave detection technology.

Next, two more people stood up to speak, but they were directly rejected by Zhao Yi. He looked at everyone tiredly and asked symbolically, Do you have any other ideas?

Someone raised his hand.

Zhao Yi simply pretended not to see it and said directly, No more! Then I will tell you what I think.

The man put down his hand in embarrassment.

Huang Hongguo wanted to say something, but he didn't say it in the end. They proposed several plans in succession, but Zhao Yi directly rejected them.

How to continue talking?

He felt a little dissatisfied. The purpose of the meeting was to listen to other people's ideas, especially for research that had no clue. How could people not be allowed to speak?

Zhao Yike didn't care what Huang Hongguo thought, he said directly, I think the measurement should be done from the perspective of the gravitational field.

Gravity field? Why? Huang Hongguo didn't understand.

Zhao Yi nodded and said, What we want to study next is the changes in the gravitational field under Z wave coverage.

He simply handed over the work without giving others a chance to speak, The experiment is like this. First we have to wait for the gravity generating device to be manufactured. By then, we will be able to create an area with more than six times the earth's gravity.

Now, what we have to do is to install the strong Z-wave generating device at an accurate location so that the Z-wave covers the area with strong gravity. At the same time, it cannot touch the gravity-generating equipment or any other objects.

do you understand?

Understood!

The theory group collectively made a sound.

Huang Hongguo looked left and right, and he really couldn't understand.

One reason is that Zhao Yi directly formulated a research plan without giving others a chance.

Secondly, he couldn't understand what Zhao Yi was talking about.

He knew about the gravity generating device, but six times the earth's gravity?

what?

In addition, what is the relationship between the study of gravity and Z-wave detection technology?

——

The meeting is over.

Looking at the progress of the meeting, it lasted about fifty minutes, and for forty minutes people from the Institute of Information and Communications Technology expressed their opinions.

Zhao Yi only took about five minutes to explain the next work.

Huang Hongguo chased Zhao Yi out very dissatisfied and kept saying, Academician Zhao, I don't understand why you arranged this. What does studying changes in gravity have to do with our research? And why do you have to wait for that equipment? Is it ready to be made?

Zhao Yi explained, Academician Huang, I designed and conducted the experiment based on our theoretical foundation of voids and space research.

The reason for this design is very simple, because I hope to be able to change gravity as a means of ultra-long-distance Z-wave detection.

I still have to go to the experimental site to check the assembly progress. If you want to know more details, you can ask Academician Witten, Academician Qiu, or Professor Zhang Qican.

He said that and walked away.

In recent days, large-scale gravity generating equipment has been continuously assembled and debugged.

This work is very important.

The research on the generation of gravity is more important than the research on Z-wave detection, and it is also directly related to the research on Z-wave detection, so it definitely needs attention.

Huang Hongguo watched Zhao Yi leave and suddenly felt very depressed.

He didn't understand the reason why Zhao Yi designed the experiment, and was a little dissatisfied with Zhao Yi's attitude, but he also knew that Zhao Yi was indeed very busy, so he could only settle for asking other people.

Huang Hongguo thought for a long time and decided to ask Edward Witten.

Edward Witten is a very famous theoretical physicist with huge international influence. He also does research with Zhao Yi, so he may understand the reason for the experimental design.

Of course Edward Witten knows.

Although he had no clue at first, he understood it after Zhao Yi came up with the experimental design, and he did not hesitate to explain it to Huang Hongguo, Based on the hole hypothesis theory, we believe that the connection of control points can be twisted in a substantial sense. space.

This has also been proven experimentally.

The Z-wave coverage area will make the holes very active, even to an unimaginable level.

Based on the characteristics of space, the topological state of high-dimensional mass point mapping will cause distortion effects at low latitudes, and gravity is also a product of space-time distortion. In the process of holes jumping with disordered prime numbers, -

Bala bala~~~

Edward Witten talked a lot in succession, as if he was immersed in his own time, and finally concluded happily, What wonderful mathematics!

Huang Hongguo could vaguely understand it at first, but later it just seemed like it was written in heaven. His scalp felt numb, but he had to pretend that it was like 'that's how it is'.

After leaving, he went to find Qiu Chengwen, It seems that foreigners are just not good at it. They talk about all kinds of things and don't know what's going on, so they start to feel happy.

Qiu Chengwen also did not hesitate to explain. He said seriously, In fact, to put it simply, it is to use the gravitational changes in the Z-wave coverage field to detect the magnification.

This is very straightforward.

Huang Hongguo understood it immediately, but found that it was the same as what Zhao Yi said, but he still didn't understand the specific reason.

Qiu Chengwen talked about the Hollow Hypothesis, and then he found that Huang Hongguo didn't seem to understand, so he asked doubtfully, Academician Huang, do you know about the Hollow Hypothesis?

I heard it.

Then do you know the prime number transformation of the jump point of the hole?

This, I don't know.

Um.

Qiu Chengwen nodded and simply did not continue. Instead, he suggested, I think you can take a look at our previous research first. The non-confidential part is about loophole jumping.

After you understand this part, you can study carefully the analysis of space distortion based on the null hypothesis, which is also the analysis of gravity.

Also, study the jump and movement of holes within the Z wave.

Once you understand this part, you can probably understand it, right? Qiu Chengwen said an uncertain conclusion. He didn't know whether Huang Hongguo could understand it, because the principle of experimental design also involved a lot of other knowledge.

After hearing this, Huang Hongguo took a deep breath and was not shocked. Because he was not involved in the relevant research, it was normal for him not to know.

So he decided to study it carefully.

If you can do it, so can I and my team! He was very determined in his heart.