Wang Hao suggested that Qiu Hui'an study the Riemann hypothesis because the structure of the Riemann mass point is directly related.

Mann's conjecture is the basis of higher-order particle functions, just like the annihilation theory

That's not a joke.

Of course he knows the difficulty of the Riemann Hypothesis, but studying the Riemann Hypothesis does not mean that he wants to prove it.

In fact, some inferences based on the Riemann Hypothesis are more meaningful for mass point construction than proving the Riemann Hypothesis itself. On the contrary, the proof of the Riemann Hypothesis may not necessarily be of much significance.

Of course.

Mathematically speaking, the proof of the Riemann Hypothesis is very meaningful, but for the mass point structure, the rigorousness of the mathematical foundation is not so important in the direction of using the mass point structure basis to connect the characteristics of the annihilation force and the direction of scientific and technological research and development.

It is definitely good to have proof, but the best hope is to be able to deduce something.

"If you are interested, you can try to study it."

Wang Hao explained to Qiu Hui'an and suggested, "It's best to have some conclusions, and it doesn't matter if you don't have any."

Only then did Qiu Hui'an gain confidence.

For the next period of time, Qiu Hui'an and Ding Zhiqiang have been working in Wang Hao's office.

Wang Hao is constantly reading information and learning, while they are focusing on their own research.

When someone encounters a problem, the teacher and student will discuss it and record the results.

Days like this lasted for more than half a month.

After that, Wang Hao had to get busy and left Xihai

University, hundreds of kilometers away by car.

It was a temporary experimental base.

This experimental base was built temporarily and is located on the edge of the desert.

When Wang Hao arrived at the experimental base, there were already many people at the base, various equipment had been transported, and many experts and scholars from other institutes came.

They are going to conduct a very important experiment that requires special confidentiality - using F rays to ignite a nuclear reactor.

This is part of the study of F-ray characteristics.

When it comes to nuclear reactors, it is definitely not a separate experiment of the Antigravity Behavior Research Center. Participants also include the Institute of Nuclear Physics Engineering, the Major Projects Department of the Ministry of Science and Technology, and the Institute of High Energy Physics of the Academy of Sciences.

The current F-ray generating equipment is still a temporary equipment that was originally manufactured. The new equipment is still being manufactured and will not be used until all experiments on the original equipment are completed.

The strong annihilation field created by the original equipment was not as strong as

High, naturally also affects the intensity of F-rays.

Although the intensity of the F-rays produced is not high, it reaches a researchable standard. Temporary equipment is also very expensive.

If you consider that the helical magnetic field components used in the equipment are obtained by disassembling small tokamak devices, you can know how expensive the equipment is.

Such expensive equipment naturally needs to be used to its full potential.

After all planned experiments are completed, the temporary equipment will be used to conduct the final two major experiments.

These two experiments are also the most demanding and dangerous. One is the extreme pressure experiment and the other is the nuclear control experiment.

The extreme pressure experiment is to keep the equipment running and use the spiral magnetic field to continuously charge the internal strong annihilation force field. The strong annihilation force field is affected by the spiral magnetic field. Because the field force has no outlet, it will react on the internal anti-gravity field.

(Weak annihilation force field), the strength of the antigravity field will also continue to increase.

In previous experiments, we did not dare to keep increasing the antigravity field. The main reason was that we were worried that accidents would occur when the intensity reached a certain value.

For example, a violent explosion.

For example, some unpredictable physical phenomena occur, causing the experiment to become uncontrollable.

These are all possible.

Another experiment is to test the nuclear burning characteristics of F-rays, allowing F-rays to irradiate the nuclear reactor to see if it can produce ignition or other effects.

Obviously.

When it comes to nuclear reactors, experiments are also very dangerous

of.

However, after careful discussion, everyone unanimously decided to conduct the nuclear control experiment first, because the nuclear control experiment is aimed at the equipment itself, which only produces F-rays normally. The most dangerous place is the nuclear reactor.

In this regard, the Institute of Nuclear Physics and Engineering is very experienced.

Therefore, most of the meetings two days before the experiment were led by the Institute of Nuclear Physics and Engineering. During the meeting, Academician Jia Shumin talked about the experimental layout. He drew a picture on the whiteboard and marked it, and introduced, "We are in the distance

Five kilometers away underground, an ultra-small nuclear reactor is placed."

"This ultra-small nuclear reactor uses enriched uranium material with an abundance of 91%, but everyone can rest assured that the explosion is controllable."

"Normally speaking, the explosion will only set off sand waves no more than ten meters. It is too far away to be visible to the naked eye and can only be observed through helicopters."

"Besides, we didn't place a fuse."

Jia Shumin looked at Wang Hao and asked, "Academician Wang, at this distance, can F-rays hit accurately?

"no problem."

Wang Hao first nodded affirmatively, and then added, "Even if you fail to hit once, you can try again a second or third time."

Many people in the conference room laughed.

Jia Shumin also smiled and continued to ask, "But I'm not pretending

It’s a fuse, are you sure it can ignite?”

"I can only say that it is theoretically possible."

Wang Haodao.

Although it was only an uncertain answer, it still surprised the scholars at the Institute of Nuclear Physics.

Before they came to participate in the experiment, they had no idea what they were going to do. Only then did they find out that the Antigravity Behavior Research Center was going to study the properties of a new type of ray.

That is not a real "ray", but an extension of the strong annihilation force, which is called an "F-ray".

The properties of this kind of radiation are very strange, and it can even theoretically ignite a nuclear reactor, which is even more amazing.

A nuclear reactor is not gunpowder or fuel, but a very special particle reaction. Even a high-abundance nuclear fission reactor that is easy to ignite, which can be simply understood as an atomic bomb, also requires a neutron source as a fuse.

The conventional ignition method of an atomic bomb is to use the neutrons produced by fission to bombard other uranium-235 nuclei, thereby causing a new fission reaction. What continues is a chain reaction of fission, which generates a large amount of heat energy.

Now it is said that there is a "field-stretching ray" that can directly ignite a nuclear reactor, which is really surprising.

The people at the Antigravity Behavior Research Center don't have any special feelings. They have done many studies on the characteristics of F-rays and made countless demonstrations.

They believed beyond belief that F-rays could ignite nuclear reactors.

Now it is just a real experimental demonstration.

Of course, the experiment is not that simple, because it involves certain risks and must be carefully demonstrated before the experiment.

After Wang Hao arrived at the base, he spent most of his time making demonstrations, discussing with others what might happen in the experiment, and controlling the risk to an acceptable level.

In order to let scholars from the Institute of Nuclear Physics know more about F-rays, he also briefly talked about what would happen in theory, "F-rays can greatly accelerate the decay rate of nuclear fuel, more than double it.

Twice, maybe dozens of times, hundreds of times.”

"As long as it is exposed to uranium 235, there is a probability that a neutron source may be generated."

"In other words, many neutrons may explode at the same time in an instant.

hair, greatly speeding up the reaction speed

When these words were spoken, the expressions of the scholars at the Institute of Nuclear Physics became much more solemn.

If the initial reaction speed is too fast, even if the size of the nuclear reactor is fixed, the explosion may be more intense.

It's like a small pile of gunpowder.

If they are burned separately and slowly, only some sparks can be seen. If they are piled together, a violent flame may form.

They also used this to carefully demonstrate whether the explosion might cause uncontrollable risks.

The day before the experiment, the last meeting.

before the meeting.

Wang Hao chatted with Jia Shumin, Duan Jianshu and others, talking about the difficulty of research on strong annihilation force.

"The main difficulty is not the experiment, but the theoretical basis."

"Nuclear physics research has a complete theory, and its main focus is technology, and the strong annihilation force...

"In this direction, all the papers in the world combined, there are only a few hundred, and most of them are meaningless. I can count the ones with real value and gold on two hands."

"And our research, so far, is still unique in the world. Everything needs to be explored by oneself, and there is no direction at all."

Duan Jianshu nodded and asked, "Do you have any ideas for the next step?"

Wang Haodao, "I still want to start with theory."

He explained, "The most difficult part of this research is that there is no theoretical basis, so recently, I have been doing basic research, and the main direction is to construct mass points."
To be continued...