Genius of the Rules-Style System

After looking at the materials, devices and reaction residues related to the nuclear reaction experiment, Zhao Yi returned to Yanhua University. He wanted to make mathematical deductions based on the conditions and conclusions obtained.

In fact, the conditions for his acquisition were not sufficient. He only confirmed one thing -

As a material, uranium element, during the nuclear reaction, the atomic nucleus becomes loose to a certain extent.

It is not certain whether the loose structure of the atomic nucleus only appears during the nuclear reaction, or whether it exists in the space barrier environment.

This creates problems for mathematical derivation.

Zhao Yi hoped to find out the reasons and make corresponding judgments through theoretical deduction. After he returned, he began to retreat and started working on mathematics.

The derivation at the level of particle mathematics is very complicated. It requires contacting the password of the gods, the original research on space obstruction, and then contacting the mathematics related to nuclear physics. The three are combined together and based on the experimental conditions and results. Mathematical structure and analysis and deduction.

This is to derive the theory through the experimental process.

In fact, it is similar to the particle collision experiment, which relies on the observed particle composition to infer the reactions that occurred during the process.

Most of the time, the research of theoretical physics is like this. It does not mean sitting in a room and seriously thinking and studying mathematical problems. Instead, it uses experimental data and experimental logic to mathematically explain the collected data and Experimental phenomena.

Because of this, there are so many theoretical physicists in China who support the construction of the largest particle collider, because the largest particle collision experiment itself will provide the most high-end, clear experimental data and experimental phenomena. .

…

the other side.

The Institute of Nuclear Research team also believes that the strong reaction is a great discovery, because the strong reaction itself means that the nuclear device can provide higher power.

The power of nuclear reactions is very important. For example, the reactor of a small nuclear submarine cannot be used on a large aircraft carrier because of insufficient power.

At the same time, problems also exist.

The biggest problem is that it cannot be controlled. During the nuclear experiment, the inner protective layer was damaged.

In addition, what the Nuclear Research Institute team did not understand was that during the nuclear test, they only found that the reaction was more complete and the temperature increased, but the reaction speed did not speed up.

This is illogical.

Just like a ball of gunpowder, a more complete reaction will generate more heat, and the gunpowder itself will definitely burn faster.

However, during the nuclear test, no faster response was found.

This was also an important reason why ‘adequate response’ was not found initially.

"Why is the response sufficient and the reaction speed not improved? It's so strange..."

"The impact of anti-gravity is so great!"

"If you just react more fully, it doesn't seem to be of any use..."

The Nuclear Research Institute team led by Chen Zeshu has been discussing the findings of the anti-gravity nuclear fission test, but after repeated discussions, there is still no conclusion. What is also somewhat depressing is that even if the reaction is stronger, it seems to be meaningless, because the reaction is Gravity conditions are not easy to achieve, and even if they are achieved, it will just 'react more strongly', which may bring danger, rather than being applicable.

In fact, the power of nuclear fission devices has never been a problem. For example, in large nuclear power plants, the power of the units is very high, enough to support the operation of large aircraft carriers. However, the 'abundance' is too low, and the 'abundance' can Directly affects the use and replacement life of power raw materials.

Taking the most commonly used uranium as an example, 'abundance' can be understood as the 'concentration' of uranium 235.

no doubt.

For the same weight of nuclear fission raw materials, the higher the concentration that protects you, the more energy can be released. Under the condition of fixed output power, the longer the reaction time can be supported.

If you switch to a fuel vehicle, the more efficient and fully burned gasoline will certainly support the vehicle to have a higher mileage.

There are no technical obstacles to the ‘abundance’ of nuclear fission raw materials.

However, high abundance means that the reaction per unit volume will release a very huge amount of energy. How to control the reaction and the huge energy released is the biggest technical obstacle.

For example, the atomic bomb.

The abundance of fissile raw materials inside an atomic bomb can exceed 85%, and a large amount of energy is released in a short time after the explosion. However, it is obvious that the energy after the explosion of the atomic bomb cannot be artificially controlled and converted into power.

A simple summary is that if the abundance of raw materials is low and the same volume of raw materials has a short nuclear fission duration, the life of the nuclear reactor will be short.

High abundance and difficult to control.

This is the problem that the Nuclear Research Institute team is encountering now. Under the condition of space barrier, the nuclear reaction becomes more complete, that is, the power provided is higher, but it seems to be meaningless, because the high power becomes difficult to control, and instead makes the nuclear reaction device itself, prone to leakage risks.

In addition, the reaction speed has not been accelerated, which is a theoretical problem.

When there is uncertainty within a nuclear reaction, it means that the risk will be greatly increased.

After continuous discussions, the nuclear institute team did not gain anything. They did not receive orders from their superiors, so they could only continue to clean up the device, and they did not know what to do for a while.

Everyone can only continue to wait. What they are waiting for is orders from their superiors.

The higher-ups are waiting for Zhao Yi.

The senior officials knew that Zhao Yi had gone to see the nuclear reaction equipment and materials, and that he was doing relevant theoretical research. What they were waiting for was Zhao Yi's experimental report.

Regardless of whether the experiment yields results or not, a report will certainly be submitted.

Zhao Yi has been doing research. Until the end of the experiment, he has not submitted an experiment report, which means that the experiment has not yet produced results, and naturally it is not completely over.

…

Yanhua University.

Zhao Yi is still doing research in seclusion. His research encountered a problem. The 'conditions' found that the uranium element has a loose structure, but in fact, the nuclear structure is still stable. In theory, uranium-235 itself is radioactive, and the atomic nucleus has only a little The loose structure will definitely go directly into the reaction.

In other words, after the anti-gravity device is turned on, there is no need to 'ignite' it, the uranium-235 inside the nuclear device will directly fission.

This problem became a problem at first. Zhao Yi originally wanted to build a mathematical system to analyze and deduce it in conjunction with other aspects, so that he might know the answer he wanted.

but none.

After a week of continuous research, he was still troubled by this problem.

Zhao Yi was very confused. He thought carefully for a long time but couldn't come up with an answer. He simply walked out of the room and walked outside to look for inspiration.

He had just walked down the faculty dormitory building when he saw an unexpected person--

Edward Witten!

"Zhao Yi, you are finally out!" Edward Witten greeted him warmly and complained, "Your guards are really doing their job. I can't even go to the fifth floor for fear of disturbing you. We are together. If you are cooperative, of course I will only help you.”

"Feel sorry!"

Zhao Yi nodded apologetically, "When did you come? Why didn't you tell me?"

"It was decided a few days ago, but I couldn't find you at all. Your assistant, Miss Qian, said that you were doing research and were very busy and couldn't be disturbed."

Edward Witten curled his lips as he spoke, seeming to be very dissatisfied, and then said, "I was invited. Your university invited me to be a professor of the School of Science. I just need to give lectures a few times a year, or give two classes." Yes. I thought about it and agreed. I will come to you anyway."

"Oh, welcome, we will be colleagues from now on." Zhao Yi said with a smile.

Edward Witten said, "Just give a few lectures" and "Take two classes." It seemed that the work was very easy and he could get a good salary. In fact, there are many universities around the world that are eager to use it. The higher salary allowed Edward Witten to give classes and give lectures. Even some universities did not require him to go there in person, and he could just act as a professor in his name.

This is the influence of the top mathematicians and theoretical physicists.

Therefore, it must be because of Zhao Yi that Edward Witten accepted the invitation from the School of Science at Yanhua University.

He changed the topic and asked, "What research are you doing? Is there any progress?"

Zhao Yi said with some disappointment, "No. I just went out to take a look because I was stuck in a bottleneck."

"Hahaha~~"

Edward Witten looked a little surprised, but immediately laughed, patted Zhao Yi on the shoulder and said, "It's right to go out and walk more. I'm bored in the office alone and can't think of anything. If you want to find inspiration, You can look for irrelevant things. Physically, what may not be relevant may be relevant.”

"Last time I couldn't think of anything, so I went to a dance at school. There were many graduate students in attendance. They were all in their twenties, young and beautiful, and some..."

"Ahem."

Edward Witten quickly stopped as he spoke, changed the subject and asked, "What are you studying? What problems have you encountered?"

"Of course it's particle mathematics. I've been doing research on space." Zhao Yi said calmly.

Edward Witten said, "I think so. Regarding space, it is too complicated. I have constructed several ways to understand multi-dimensional space, but each one seems imperfect."

He continued, "So, I think, maybe we can continue the last study together, which is 2 to the Nth power energy point. That would be very interesting."

Zhao Yi listened and thought for a moment, then nodded and said, "I think so too."

The two reached an agreement.

On that day, Edward Witten gave an open class on string theory in the teaching building of the School of Science of Yanhua University.

Zhao Yi also went over to help and sat in the last row to listen.

On the second day, they studied together the issues related to 2 Nth power energy points and spatial repulsion.

Research in this area mainly starts from the perspective of mathematical structure and mathematical logic of mass in space.

Edward Witten firmly believes that quality comes from multi-dimensional space.

Mass is the product of multi-dimensional space, an idea proposed by Zhao Yi, but he himself was skeptical and only regarded it as 'a possibility'. Edward Witten was really a strong supporter of this idea, even in many speeches and In the classroom, this statement is constantly instilled in the students.

During the discussion between the two, Edward Witten also started from the perspective that "quality is a product of higher dimensions", while Zhao Yi's understanding of quality is more realistic. He just fixed the basis on the rejection of quality by space, and It will not contact more mysterious multi-dimensional spaces, dimensional collisions and the like.

Different understandings create different ways of looking, and sometimes they complement each other.

The efficiency of the two people's research together is still very high. It only took them three days to construct a 'mass point' system to explain the shape of particles in units of mass points, not simply edge energy units. composition.

A unit of energy is, by definition, too small.

Even compared to the most basic particles, the energy unit is still so small that it can be ignored. When discussing particles in terms of energy units and compositions, there seems to be something missing in the middle, because it is impossible to accurately define the connection between the boundary of the particle and the energy point. The core of the particle has never been defined.

With the concept of mass points, we can use energy points to form mass points, and then use mass points to form particles of different shapes.

The simple expression of the concept of mass point is that the variable energy composition interval of 2 to the Nth power energy unit. Particles without mass are simply defined as energy composition, and the mass point is zero.

After completing the mathematical construction of the mass point, Zhao Yi thought about the antigravity nuclear fission reaction and asked, "Edward, you said that space will repel and squeeze the mass point, so how does the mass point block it?" What about it? Is it because the energy structure itself is to resist space, or is it that if the mass enters the universe, it cannot go back?"

Edward pursed his lips, spread his hands and said, "Maybe it's resistance, maybe it's disguise, who knows?"

"Disguise? Resist hard..."

Edward Witten said, "Of course, force interacts. Most of the time, it is the same in the microscopic world. Space repels mass points. The mass points may be like wearing armor, staying in place to resist, and being squeezed into other forms. It’s possible that the strong force, the weak force, or the electromagnetic force are all generated in this way. Of course, this is just a possibility, and it cannot be proven or proven wrong for the time being.”

He continued, "In addition, it may be a disguise. For example, your theory, its energy composition itself, may be a disguise. When the space is squeezed and enters the interior, it will not work."

"That makes sense."

Zhao Yi nodded thoughtfully, then thought about the nuclear fission experiment, and suddenly felt a sense of enlightenment.

He had always thought that space squeezing was everywhere, but from a microscopic perspective, maybe space squeezing would cease to exist if it entered the inside of an atom?

Alternatively, space squeezing brings particles and particles together.

This is a change of form.

Particles combine with each other to form an atomic nucleus. The structure of the nucleus itself may be the product of space squeeze. No matter how many forces there are in the process, such as weak force, strong force, electromagnetic force, etc., it may initially be due to space squeeze.

The atomic nucleus is the product of space extrusion. A complete force field has been formed inside, but it may not continue to be affected by space extrusion. It is like a spring. Under normal circumstances, it will elastically deform, but excessive force will cause Plastic deformation completely changes the shape of the spring. Even if the external force suddenly disappears, the spring will no longer be elastic.

in other words……

The atomic structure of uranium-235 is unstable, and it only occurs during the reaction, not necessarily initially.

When entering a nuclear fission reaction, a neutron detaches from the nucleus, just like a spring popping up again, and will naturally be affected by space obstruction. Space obstruction only increases the 'structural instability' during the reaction process.

Other atoms in the space barrier will not have their nuclei unstable due to the space barrier.

That makes sense.

Zhao Yi felt suddenly enlightened, and he said to Edward Witten with joy, "I understand! Edward, you are really a genius!"

After he finished speaking, he ran out of the room.

Edward Witten froze on the spot and thought carefully for a long time. He didn't know what Zhao Yi understood. He muttered depressedly, "Is the gap so big? What did I say? Why didn't I say anything? clear?"

"But, am I a genius? Of course!"

He pursed his lips vigorously and nodded, "Now, with your words, I can say that everyone thinks I am a genius!"