"I'm not a fairy, don't treat me as a fairy... I'm just an ordinary person!"

Zhao Yi emphasized ordinary people several times, but the effect was not very good. Others felt that when he casually said a few words about projects and designs, he always got to the point.

In the end, it was the leaders of the nuclear institute who came forward, and some project leaders walked away with regret.

In just a few days, the people at the nuclear institute had a new understanding of Zhao Yi. They always thought that Zhao Yi was good at mathematics and theoretical physics, but they found that Zhao Yi was even more genius in design, and it could even be said to be a bug. It seems that no matter what kind of design or difficulty, Zhao Yi can easily find out the problem, and then solve the problem in a targeted manner.

Zhao Yi is very modest, he explained, "It's just that I usually think more, or maybe it's a kind of inspiration!"

Later, when he went to visit again, he simply didn't take the initiative to say anything, just went to have a look and get a little understanding.

He also gained a lot from discussing nuclear physics theory with experts from the Institute of Nuclear Research.

Chen Zeshu is the top nuclear expert in China. He has a very good understanding of nuclear devices and technology, and he has also done in-depth research on nuclear physics theory.

Through the conversation with Chen Zeshu, Zhao Yi learned a lot.

Nuclear physics, to put it bluntly, is atomic nuclear physics, which is a physical subject that studies the structure and changes of atomic nuclei.

This subject can also be included in the category of 'particle physics', but the research of nuclear physics is different from other theoretical physics, and it focuses on the application of nuclear energy and nuclear technology.

In the history of the development of physics, nuclear physics is very important. In-depth research on atomic nuclei has helped physicists discover short-range strong and weak interactions, that is, strong and weak forces. In addition, the phenomenon of parity non-conservation , is also a field related to nuclear physics, and it is a major breakthrough in the traditional space-time view of physics.

The main core of the study of particle physics is the four laws of interaction and the possible connections between them.

This is a very important subject.

But in reality, nuclear physics is most valued in the application field, that is, the ability to create nuclear energy, whether it is manufacturing destructive weapons or building nuclear facilities to provide new energy sources, are all aspects that are valued by the world.

Nuclear energy, if it is complicated, is also very complicated, and if it is simple, it is only divided into two types--

fission and fusion.

In the periodic table, iron element is an important watershed. Iron element has the highest specific binding energy. In simple terms, it is the 'most stable' state of the atomic nucleus and the least prone to nuclear recombination.

In order to obtain higher energy gains, light nuclei undergo 'fusion' to become heavier nuclei, while heavy nuclei undergo 'fission' to make nuclei lighter.

These are two research directions, two different nuclear reactions.

In theory, any substance, even the soil on the ground, may undergo a nuclear reaction in an extreme environment.

The premise is 'extreme environments'.

Obviously, there is no extreme environment of ultra-high pressure and high temperature like the interior of stars on the earth. Most of the elements with stable nuclei have no possibility of nuclear reactions at all, even if the corresponding environment is forcibly created, because the manufacturing environment itself The energy required is too high, and it is definitely not worth the candle.

Therefore, the main materials for nuclear reactions are those elements that are prone to nuclear fusion or fission.

Zhao Yi has already understood these basic contents, and he knows more, but discussing with real nuclear experts, the harvest will definitely be different.

Nuclear experts look at these issues from the perspective of microphysics and mathematics. Their explanations are very advanced, and they can tell many nuclear reactions of elements, as well as exact experimental data.

and many more.

These have benefited Zhao Yi a lot, and at the same time, he felt helpless, because what he heard was almost equivalent to telling him, "Nuclear reactions can only improve technology based on existing theories."

In reality, that seems to be the case.

Theories related to nuclear reactions have not been able to make great breakthroughs for decades. The nuclear physics theories and research developed in recent years are at most just to deepen the understanding of the original theory and make the existing nuclear reactions more controllable.

That's it.

This improvement can be described by the performance of the aircraft carrier nuclear reactor of country m. For example, decades ago, the aircraft carrier they built could serve for more than ten years without changing fuel.

Now the newly built aircraft carrier can serve for decades without changing fuel.

This is progress.

However, this kind of progress obviously did not achieve a "qualitative" leap, but only improved the original technology, and there was no "qualitative" breakthrough in theory.

After several days of discussions with several nuclear experts, Zhao Yi had a similar feeling that everything was said to be dead, and it seemed that the research of nuclear physics could only be based on existing theories to design and improve related technologies.

Is this nuclear physics research?

Do not!

This is nuclear technology research.

Zhao Yi has always believed that theory is the most important thing, and he is very sure of it, but human beings do not have a sufficient understanding of the microcosm and the universe, and it can even be said that there is still a huge room for improvement.

There is a lot of room for improvement in theory. Doing theoretical research and then researching technology is the most correct direction.

Current nuclear physics research is mostly focused on technology, rather than digging out undiscovered theories. It is tantamount to just hoping to catch up with the most advanced international technology, rather than actually doing research.

But...how to dig?

Lying on the bed halfway at night, Zhao Yi frowned while thinking, and he kept sorting out the past research.

Including particle boundary theory, analysis of gravity and strong force.

Including the analysis of space, the code column formula of the gods.

Also includes the study of anti-gravity.

and many more.

These can be said to be based on the theoretical research he made, and they can also be counted as particle physics and theoretical physics.

Nuclear physics is also theoretical physics.

At the beginning, it started from the experimental point of view, using mathematics to deduce the phenomena that occur in the microcosm, and also using mathematics to do calculations.

Nuclear physics is a kind of theoretical physics, but the research object is the nucleus, and his previous research is all about the tiniest particles and space.

but……

"The nucleus is also in space!"

Zhao Yi thought about it and suddenly his eyes lit up. In fact, atomic nuclei are still in the category of "particles with weight", but the interior is composed of a large number of particles, with a mixture of strong and weak forces. The problem seems to become very complicated. In the case of internal factors, it can also be regarded as a 'large particle' of space repulsion.

As long as there is mass, it will definitely be repelled by space, that is, gravitational effect will be produced.

So……

"How would a nuclear reaction proceed without steric repulsion?"

In the existing physical theory, atomic nuclei are based on strong and weak forces, but the four fundamental forces fill every space in the universe, and gravity and electromagnetic force will definitely play a role.

In the previous research, the repulsion of space to the energy of the nth power of 2 creates a strong force, and the strong force and gravity are unified.

In the process of atomic fission or fusion, steric repulsion will definitely play a role, no matter how small the effect is, it will definitely have a role...

"Why don't you try?" Zhao Yi suddenly became interested.

He is not sure that his idea is correct, but if he really tries to experiment, he may gain something, which is much more meaningful than listening to the 'completely unsolvable' nuclear technology theory.

……

Two days later, Zhao Yi returned to Yanhua University. The first thing he did when he came back was to report to the Science and Technology Department and high-level officials, applying for a small nuclear fusion and fission test of a confidential nature.

This application confused the leadership of the Science and Technology Department.

"Nuclear test?"

"Fission experiments, fusion experiments...Academician Zhao, what are you going to do?"

"I don't know! Why did you suddenly plan to conduct a nuclear test?"

"Nuclear experiment, the Science and Technology Department can't make the decision, it's useless to approve it!"

Similar experiments cannot be approved. If it is other scholars, they will definitely be rejected directly. If they want to study nuclear issues, the only way is to enter the Institute of Nuclear Energy.

Even in the Institute of Nuclear Energy, if you want to conduct a nuclear-related experiment, you have to demonstrate it with a whole group, and you have to cooperate with many departments, including the military, before you can finally decide to conduct an experiment.

This is still the most common experiment.

If it is a heavyweight experiment like the 'atom bomb', it means that approval is so simple. Large-scale nuclear tests can only be carried out with the nod of senior leaders.

In the name of going personally, Zhao Yi made a report to apply for a nuclear test, which sounds obedient.

This application report is not written in detail, and it seems to involve the problem of anti-gravity.

The Science and Technology Department simply submitted the report to the top management. They have no right to make such a decision, and the top management already knew the news.

Zhao Yi knew that the Science and Technology Department had no right to make decisions, so he just made a 'symbolic' report. After all, he was only a university professor in name, and the application for research still had to be approved by the Science and Technology Department.

At the same time, he also submitted the report to the senior leaders through his own channels.

Only two days later, Zhao Yi received a message asking him to go to the administrative center of the capital to meet with the relevant senior leaders.

This time it was really a very heavyweight experiment application. After Zhao Yi arrived at the place, he found that the high-level people really paid attention to it. There were several people waiting in the small meeting room, each of whom was a heavyweight.

They seem to be preparing for a 'three-court trial'.

It was the first time for Zhao Yi to experience such a "test". Even when he was in the selection of academicians, he was "urged to leave" when he went in, instead of really making a discussion.

It is like an 'application interview' in front of him. He needs to explain in detail the experiment he is applying for, and it is best to be able to convince the high-level people in the conference room.

Zhao Yi's performance was very calm, he was not nervous, but sat down and said relaxedly, "I just said it directly, this experiment was thought of on the spur of the moment, when I was in the Nuclear Research Institute."

The people in the meeting room couldn't help but twitch their mouths.

If it were someone else who made the project application report, they would explain it very seriously, and they would definitely talk about how important the experiment is, and they would never use the description of "temporarily thought of".

Improvised?

I don't think it's serious when I hear it!

Zhao Yi continued, "To put it simply, conduct nuclear tests in the anti-gravity area."

"In my theory, any particle with mass, matter, and of course the nucleus, will be squeezed from space."

"This squeezing can be understood as a source of gravity."

"The atomic nucleus will also be squeezed by space. Although the inside of the nucleus is dominated by strong and weak forces, the space squeeze is everywhere, and it will definitely play some small role."

"If the steric squeeze is greatly reduced, of course it won't affect the stable nuclei, but what about the unstable nuclei?"

"The nuclei undergoing nuclear fusion or fission are all unstable, and in the process of nuclear fusion or fission, if the effect of space extrusion is lost, some unexpected situations may occur."

"I would like to hope to see this 'accident'."

Zhao Yi spoke very seriously, but then immediately added, "Of course, maybe not."

He won't talk to death.

"That's not necessarily true."

"But I think, even if there is only a very slight possibility, you should try it!"

Chapter 532 Controlled Nuclear Fusion and Space Barrier

After Zhao Yi finished his presentation, the people in the conference room began to discuss, and the discussion seemed to be suspected of 'jumping'.

They all subconsciously avoided the decision-making problem of 'whether to conduct the experiment', but based on the premise of 'if the experiment was carried out', they discussed 'where to conduct the experiment', 'how to keep the experiment confidential', 'which military region is responsible Conservation work', 'requires the involvement of several sectors', etc.

So, experiment for sure.

This is the consensus of high-level people, because the experiment was proposed by Zhao Yi, even if the application report is poor, but Zhao Yi is a theoretical expert and technical expert. His research has made great contributions to the country, and anti-gravity is his research from.

Now in an anti-gravity environment, observing the nuclear test situation sounds very meaningful, and it may not be certain that there will be any discoveries.

As a result, the topics of discussion quickly went too far, to 'whether to conduct experiments in the western desert', 'how to conduct secret experiments', 'anti-gravity must be kept secret', 'how to allocate funds', 'how to coordinate between departments'...

and many more.

After discussing with several leaders, it felt like the experiment was about to start.

Zhao Yi also listened for a while, and found that the content of the words did not seem to be right. He felt that he should say something, and quickly raised his hand to indicate that he wanted to speak.

"Academician Zhao?"

The small conference room suddenly fell silent, and everyone looked at Zhao Yi.

Zhao Yi coughed lightly, and said with some embarrassment, "Actually, it doesn't need to be so troublesome. I'm not going to do an atomic bomb experiment..."

"what?"

Several people are a little puzzled.

In their understanding, heavyweight nuclear tests are generally related to explosions, and as long as they are nuclear tests, they are very large.

Zhao Yi continued, "I don't need that much money. My idea is to conduct a small nuclear test on the anti-gravity device."

"It doesn't matter whether it's nuclear fission or fusion. But fusion should be difficult to do, but if it's just a small-scale fission experiment, you only need to ensure safety. It shouldn't be so complicated, right?"

Zhao Yi finally asked a question.

This matter is usually asked to the experts of the Institute of Nuclear Energy, but there are still knowledgeable people present. The leader in charge of science and technology said, "If it is just a small-scale fission experiment, it should be enough to find the Institute of Nuclear Energy and send a team."

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