The research direction formulated by the theoretical group is to simulate the electromagnetic storm in the outer layer of the black hole to emit F-rays in the periphery of the strong S-wave region.

But it is not known what the electromagnetic storm in the outer layer of the black hole is, and what kind of reaction it will produce.

The content involved in this question is very complex, and it is impossible to produce results if it is only a theoretical research discussion.

There is no research on this in the world, and even the electromagnetic storm in the outer layer of a black hole is just a conceptual astronomical theory.

Astronomers believe that the outer layer of the black hole will produce an electromagnetic storm, which will cause the black hole to eject a large amount of material outward in stages and cause large-scale astronomical phenomena, but in fact, the relevant research is only inference.

They relied on the observed phenomena, the study of cosmic rays of cosmic rays, etc., and finally explained it by the explosion of a powerful electromagnetic field in the outer layer of the black hole.

In other words, electromagnetic storms are only an explanation for astronomical phenomena, and naturally there can be no relevant research.

Now, if you want to simulate an electromagnetic storm in the outer layer of a black hole, you can only do it experimentally.

The first thing to do is to confine the strong magnetic confinement and constrain the strong S-wave region to a closer distance, otherwise the experiment will not be carried out at all.

Now the strong S wave area is released 500 kilometers away, and it is impossible for them to make equipment up to 500 kilometers, but it makes no sense to constrain the strong S wave area, and the strong S wave region must be close enough to the manufacturing equipment, preferably within a few tens of meters. ”

"We can create channels that connect the equipment and the field force areas that are manufactured, so that we can do complete constraints."

"The new equipment has already been manufactured."

"The magnetic field restraint equipment has also been shipped, and it can produce a super magnetic field of up to 10.3T!"

The performance of this magnetic field confinement device is quite impressive.

10.3T, the strength is very high.

Some research teams have released information on the results of the results, claiming to have created ultra-strong magnetic fields with a strength of tens of T, but in fact, the magnetic fields they create are very short-lived, and they generally use pulse technology, hybrid magnet technology, or ultra-high power electromagnet technology.

The magnetic fields created by these technologies are not stable.

In order to create a magnetic field with a large coverage and continuous stability, it is necessary to use superconducting materials to fabricate them in a conventional electromagnetic way.

The magnetic field equipment of the Strong S Wave Research Group is the most advanced and high-end large-scale equipment in China, which can stably produce ultra-high strength and large-scale magnetic fields.

10.3T, the strength is already very high, as long as it reaches more than 5T, it can be called a super magnetic field.

Inside this device is a first-order superconducting material with an ultra-high carrying current intensity.

The research team was still very satisfied with the performance of the magnetic field equipment, and after their discussion, the magnetic field strength of the first experiment was set at 1T.

The first step is to test to determine that the magnetic field confinement can shorten the distance of the strong S-wave release.

In fact, the magnetic field strength of 1T is also very high.

In contrast, some nuclear fusion technology research institutions manufacture tokamak ring containers, and the magnetic field strength used to confine electric ions is only about 1T.

After the magnetic field equipment was commissioned, the whole laboratory was busy preparing for the first experiment.

The first experiment was only a test to determine that this constraint is effective in shortening the release distance of the strong S-wave.

After this is clarified, the magnetic field strength will continue to increase, so that the strong S wave can be released closer.

Everyone is still looking forward to it.

Although they all have great trust in Wang Hao, after all, the so-called 'shortening the release distance of strong S waves' is only a theoretical demonstration.

Soon it was time for testing.

Many people who have nothing to do with the experiment still just stay in the office, because the strong S wave is released too far away, and they can't see anything when they turn on the device, they just need to wait for the results.

Wang Hao also stayed in the office, and he would not directly participate in similar experiments, mainly because he was worried about safety.

Even if he wanted to get close to the experimental equipment, he would be dissuaded from leaving.

It's a very depressing place.

The experimental process is divided into two steps, the first step is to turn on the magnetic field device, and the second step is to turn on the strong S-wave device.

Wang Hao watched the test through a computer screen.

After turning on the device one after another, he waited patiently for the results.

Where the strong S-wave area will appear still needs to be found by the military's team.

"It's going to take a while."

After Wang Hao was sure that the equipment had been turned on, he simply went to the side to make a cup of coffee, and said a word to Huang Zhen by the way.

At this time, I heard a shout from the walkie-talkie, "Academician Wang, great discovery!" ”

"Huh?"

Wang Hao was stunned when he heard this, he immediately picked up the walkie-talkie, and heard Wang Qiang on the other side shouting, "Right in front of you, less than a hundred meters!" ”

He was taken aback, and immediately ran over with Huang Zhen, Helen and others.

Because the goal of the experiment was to shorten the distance of the strong S wave release, preferably to a range of several tens of meters, the new equipment was installed in the experimental room at the foot of the mountain.

Outside the lab was a large flat area covered with loess.

When the two devices were turned on, some people walked out of the experimental room, and when they looked ahead, they felt that something was wrong, and a large cloud of smoke suddenly appeared less than 100 meters away.

At first, I thought it was a fire, but when I got closer, I was shocked.

They didn't see a thin layer of strong S-waves, but there was a lot of smoke coming out of the ground, very similar to what they had seen when they first saw it.

Although it was not possible to detect it, they were sure that a thin layer of strong S-waves had been made.

Wang Hao and the people from the theory group also came to the scene, they saw the smoke from a distance, and hurriedly asked Wang Qiang to command the shutdown of the equipment.

At this point, there is no need to confirm.

Wang Hao saw the smoke-filled scene with his own eyes, and naturally determined the existence of a thin layer of strong S waves.

He immediately asked the military team to be informed that there was no need to look any further.

The military sent several helicopters to search for a strong S-wave thin layer along the direction of manufacturing, and the nearest helicopter was also 50 kilometers away, and it was not known what was happening at the experimental base.

An hour later, the military team had arrived at the site, and many people had begun to excavate with tools.

The other side.

Wang Hao and the others were discussing the results of the experiment, and they had no idea that the strong S-wave region created in the first test was so close.

Zhou Zhiwei said with surprise, "The effect of magnetic field confinement is very amazing! ”

"Sure enough, as analyzed by Academician Wang, magnetic confinement has a direct effect on strong S waves!"

"The magnetic field of 1T constricts the strong S wave at a distance of 500 kilometers to 81 meters ......"

Others felt just as incredible.

They all believed in the results of the theory group's research, but they didn't expect it to work so well.

The magnetic field equipment used by the research team can produce a super magnetic field of more than 10 tons at a maximum of 10 T, and the result is only one-tenth of the strength of the ......

Seems to have reached the goal?

A group of people all looked at Wang Hao.

Wang Hao took a deep breath and said, "This shows that our judgment is biased. ”

"The effect of the magnetic field is not just a constraint, but a direct limitation, and it can even be understood as a direct reduction in the intensity of the S wave."

Strong S-waves, with two attributes.

One attribute is the annihilation field strength, which is fixed.

Although it is not possible to accurately measure it, the annihilation force field strength is probably between 5.0 and 5.5 based on the subsequent analysis of the field force of a large number of materials.

Another property is the strength of the S-wave, just like the gravitational field technology, the S-wave strength of a strong S-wave can be understood as the 'gravitational strength'.

The strength of the S wave is high, and the specific manifestation is that the spatial impact on matter is formed internally, or the literal understanding of the 'gravitational force'.

Now the effect of creating a magnetic field on a strong S wave is to reduce the strength of the S wave.

"It's not just a constraint, it's a direct reduction in intensity."

"Perhaps, when the magnetic field strength reaches a certain value, the S-wave intensity will be zeroed, and the strong S-wave will become a strong annihilation force field......"

This is Wang Hao's speculation.

Although it is only speculation, it is indeed very likely from the results of the experiment.

Others are convinced.

Many people have also started to analyze and think that a magnetic field strength of less than 1.2T is enough to zero the strength of the S-wave.

In the second experiment, the strength of the device's magnetic field was determined.

They still have a lot to prepare.

When the intensity of the S-wave reaches zero, it becomes a strong annihilation field, and the field force is created directly in front of the device, and they do not know the form of the field force, which may not be elliptical, but a large area.

When the strong S wave weakens into a strong annihilation field, it is no longer affected by the normal environment.

At the same time.

Wang Hao was discussing the experimental results with the people in the theory group, and they were discussing it from the theoretical level.

The magnetic field, which has a direct effect on the strong S waves, is very surprising.

They initially thought that the magnetic field would be confined and that it would not be possible to be 100% confined to strong S-waves.

The results of the experiment were very unexpected.

"The magnetic field seems to be the natural nemesis of strong S-waves, and can even directly 'eliminate' the S-wave attribute......"

"It also shows that our judgment of the electromagnetic field in the outer layer of the black hole is wrong."

Wang Hao thought about it and said, "The electromagnetic field around the black hole will continue to have a huge impact on the inside of the black hole, not just to a certain level of explosion. ”

"To a certain extent, it is also a kind of equilibrium, after all, the singularity at the center of the black hole releases only a field force, not energy or physics."

"After the matter enters the inside of the black hole, the electromagnetic properties are stripped away, and the electromagnetism will also affect the force field of the black hole itself, and finally the balance between the force field and the outer layer of electromagnetism will be reached."

Helen pondered and asked, "So black holes will also be limited?" ”

Ding Zhiqiang immediately said, "Many studies have shown that black holes do not expand indefinitely. ”

Wang Hao nodded approvingly.

The study of black holes is still very simple, but there are some discoveries.

It's impossible to study these huge black holes, but there are some small ones that were formed by the collapse of stars.

Therefore, to some extent, black holes can be regarded as the product of the natural evolution of the universe, which is bound to be limited by rules, rather than swallowing matter without limit.

The formation of its central singularity must also follow some kind of physical law.

Or, the mass density reaches a certain level.

Or, if a certain special condition is reached internally, the peculiarity of releasing strong S waves will appear.

In either case, there is a principle for the generation of singularity strong S waves, and the field force cannot appear out of thin air, and it will definitely consume a lot of energy.

This view is gratifying, and there is a lot less awe of the existence of black holes.

Wang Hao felt a lot more relaxed.

It is said that the end of scientific research is theology, because when research reaches a certain level, it seems that it can no longer be explained by science.

The same is true for the study of black holes, which have reached unexplained levels before -

Singularity!

They define a singularity that releases strong S waves in the internal physical structure of the black hole.

The question is, how did the singularity come about?

Why does the singularity continue to release strong S waves? What is the source of the force field?

If you think about it deeply, you will feel that it is a creation of God, or it can be explained by using 'high-dimensional physics' that is close to metaphysics.

For example, the singularity is a projection of a high-dimensional to a three-dimensional universe.

Now it is much easier to discover that the singularity may just be a product of the evolution of the universe, and that it contains physical phenomena with properties.

At least, the future is possible.

While the others were thinking about this question, Ding Zhiqiang suddenly said, "We can only guess about the singularity." If our inference is correct, the magnetic field will have a direct effect on the strong S waves, doesn't it mean that the black hole can be destroyed directly by using some kind of super-strong electromagnetic field technology? ”

"As long as the ultra-high magnetic field is used to disturb its internal S-wave force, the black hole will naturally disintegrate."

Wang Hao shook his head with a smile and said, "Maybe you're right, but how strong and how wide is the magnetic field?" ”

"There's always hope anyway."

Ding Zhiqiang said.

Others laughed along, Ding Zhiqiang said a certain truth, but using a large range of strong magnetic fields to destroy a black hole is too far away.

Not to mention whether there is a technology that can create a very large range of strong magnetic fields, even if you have such a technology and can release it around a black hole.

Here's the problem......

The most recent black holes are thousands of light-years away, and it makes no sense to think about this question at all.

Of course, they are also just casual discussions.

Everyone felt relieved that they had discovered the effect of magnetic fields on strong S waves, and that they had made a new analysis of black holes, and that they were much less in awe.

On top of that, the experiment has made tremendous progress, and the first test confined the strong S-wave to within 100 meters.

The research team has already begun preparations for the second experiment, which aims to use a strong magnetic field to weaken the strong S-wave into a strong annihilation force field and confine it to the area in front of the device.

This is not to create a strong annihilation field, but to confine the strong S-waves, and prepare for the subsequent excitation of F-rays.

In fact, constricting a strong S-wave to form a strong annihilation force field is completely different from creating a strong annihilation force field.

principle, different.

As a result, it is also different.

The magnetic field intervention causes the strong S-wave to lose its 'S-wave attribute', which is similar to the 'positive and negative forces' canceling out, rather than reducing the S-wave attribute to 0.

The S-wave properties are not really disappearance, zeroing, but are simply canceled out by magnetic field intervention.

It's like two forces acting in completely opposite directions on the same object, and the two forces cancel each other out, but instead of disappearing, they continue to act on the object.

The object is subjected to two forces, and the surface appears to be stationary, but in fact it is squeezed and pulled by two forces.

If a person is subjected to such an opposing force, the force is strong enough that the human body will either be torn apart or flattened.

The strong S wave is weakened into a strong annihilation field, which is also different from the conventional strong annihilation field, but a chaotic area with the opposite force field.