The expression of 'directional strong S wave technology' in the content of moissanite achievements has caused a boiling of international public opinion.

Many people are discussing the relationship between directional strong S waves and black holes, and some professional scholars have dug deep into the information and found all the relevant content in the "Annihilation Physics - Black Hole Theory".

Some professionals in theoretical physics have gone to the Internet to analyze public opinion, "In "Annihilation Physics - Black Hole Theory", it is believed that the center of the black hole is a singularity that emits directional strong S waves. ”

"The singularity emits an inward-directed strong S-wave in all directions, that is, it releases a strong annihilation field inward."

"This very special field force tears apart the nucleus and strips the atoms of their electrical properties, including positively charged protons, and the electromagnetic properties are also stripped and converted into neutrons, which are concentrated around the singularity to form a center with an astonishing mass density."

"In the process of stripping away the electromagnetic properties of matter, the electromagnetic properties will be thrown out of the outer layer and concentrated on the surface of the black hole, and when the intensity reaches a certain level, it will cause an electromagnetic storm."

"This is also the reason why black holes will have periodic electromagnetic storms and throw out internal matter."

"The 'directional strong S-wave technology' used in the manufacture of moissilate can only turn silicon carbide into a chemical molecule with a covalent structure of the inner molecule, indicating that it has not reached the level of tearing the nucleus apart."

"The difference between the two, one is the intensity."

"The intensity of the directional strong S wave at the singularity of the black hole is very high, and the intensity required to make moissanite must not exceed the critical line of element upgrading."

"The second is the direction, because the data is very limited, the direction of the strong S wave is uncertain, and it is not certain whether Wang Hao's team has mastered the technology of creating a strong S wave at a single point, that is, similar to the singularity at the center of a black hole."

"If you master this technique, it's really scary......"

The analysis of professional theoretical physicists has not alleviated the concerns of public opinion, and any correlation between technology and black holes will look very scary.

Even if the directional strong S wave is not the technology to create a black hole, the influence is very large, because the directional strong S wave technology creates new molecules, changes the molecular properties and appears covalent molecules of inner electrons, which directly affects the discipline of 'chemistry'.

It's not just speculation.

In fact, the effect on chemistry has already been explained in the content of the results, and the chemical properties of the silicon carbide molecule in the carbide crystal have changed.

For example, the results show that the new silicon carbide can react with a variety of substances, and when reacted with iron trisulfide and hydrogen, it can also form an organic molecule containing a variety of elements.

This content is not conspicuous in the result paper, but it has attracted the attention of many professionals, because it must be formed into a new organic molecule, which involves organic chemistry, biomaterials and other disciplines.

In short, the disciplines that had no impact have been affected.

Annihilation physics is no longer just physics, but an emerging technology that affects almost all disciplines.

Directional strong S-wave technology also represents a completely new technology.

This technology is even more amazing than gravitational field technology, which only creates S-waves, that is, creates new space to create areas with the same gravitational effect, and directional strong S-wave technology creates "strong gravitational force with strong annihilation characteristics", which is bound to have amazing destructive power.

Of course, the outside world can only guess what kind of characteristics it will have, but public opinion believes that it must be very scary.

Now the direct impact is moissanite, which is very attractive.

The results of the publication of "Physics and Theory of Annihilation" also included a picture of moissanite, which is a regular docahedral diamond, and together with a series of physical and chemical properties released, it is widely believed that moissanite has great jewelry potential.

"It has more stable physical and chemical properties than diamond."

"It's very beautiful, no worse than a diamond."

"It's a perfect substitute for diamonds!"

The direct impact of public opinion is that the price of diamonds on the international market has plummeted.

Nowadays, the vast majority of diamonds are artificially made, because natural diamonds and artificially created diamonds are put together, and they cannot be identified at all, and the identification methods of 'diamond experts' can be summarized in one sentence - the worse quality is natural diamonds.

This obviously doesn't make any sense.

It is also an artificially manufactured product, and the beauty of silicon carbide is not worse than that of diamonds, and the size is relatively much larger, which will naturally affect the value of diamonds.

……

Ignore the heated discussions of international public opinion, but the concerns about black holes in public opinion still need to be clarified.

Yang Zhifen and Lu Zhen appeared in front of the media, and they went to the National Materials Science Research Center and publicly accepted interviews with several media.

Both were thrilled.

They are all already well-known scholars in the circle, but in fact, they have not been interviewed a few times, and they remember two or three times, and they are all only academic reporters, and the content of the interviews is only published in academic journals, and there is no public opinion at all.

Now it's different.

The research they did became the focus of international public opinion, and a large number of media reporters wanted to do interviews.

Yang Zhifen and Lu Zhen both felt very nervous as if they were fledglings.

After the excitement and excitement, they talked about moissanite in front of media reporters, mainly explaining the physical and chemical properties of moissanite.

"Ula Ula ~~"

The relevant content listens to the ears of the reporter, like a lot of noise that pollutes the ears, because its content has already appeared in the outcome paper, what is the point of continuing to introduce it?

Even if some of them are not in the outcome paper, it is not a big deal if a new substance has one more chemical characteristic.

Media journalists are interested in other issues.

When entering the question session, a reporter couldn't help but ask, "What everyone is concerned about is that moissanite looks like a diamond, can it be used as jewelry?" What about the yield? ”

Lu Zhen hesitated, skipped the question of yield, and said, "I can only say that the physical and chemical properties of moissanite are very stable. ”

"Although there are some new chemical properties, all reactions need to be carried out at high temperatures, and we have found that the chemical reaction needs to be as low as 800 degrees Celsius."

"In fact, in addition to very special reactions, general reactions require an environment of more than 1000 degrees Celsius, as for the physical properties, there is no need to introduce more, it has higher hardness and toughness than diamond."

"Personally, I think moissanite can be used as jewelry, it is more beautiful than diamond, and it usually presents a 24-hedral structure."

"Under the irradiation of light, moissanite with few impurities will show a colorful light."

"If it is doped with sulfur or metallic elements, it will appear monochromatic light, which is also beautiful......

Lu Zhen said and suddenly smiled, he took out a moissilico spar and put it in front of the camera lens for media reporters to take pictures.

This moissanite is oval-shaped, with a maximum inner diameter of about 3 centimeters, a minimum internal diameter of 2 centimeters, and a thickness of less than one centimeter.

Under the light of the scene, it is obvious that there are various colors of light all around.

A large number of cameras and cameras were aimed at the moisser for filming, and the interview became chaotic, and some reporters even wanted to get close to shoot, but fortunately they were stopped by the security personnel in time.

After a few minutes, the venue was quiet again, and a reporter stood up to ask questions about strong S waves.

This time, it was Yang Zhifen who answered the question.

The main reason for their interviews is to respond to the concerns of public opinion and to be fully prepared for relevant issues.

"Strong S-waves are not black hole fabrication technology."

"There is no direct correlation between the two. In fact, there is no need to worry about the intensity, theoretically speaking, in order to form a black hole, the annihilation force in the strong S-wave region must reach a minimum intensity of several hundred times. ”

"Obviously, it's impossible."

"Academician Wang Hao said that this problem ......"

The reason why Wang Hao is mentioned is to increase the persuasiveness, "The strength of high magnification is not only high-tech, but also needs environmental support." ”

"Even if you master the high-end technology, it is impossible for the environment on Earth to create strong S waves with high magnification, so there is no need to worry about black holes."

This explanation reassured the reporters and was enough to calm the worries of public opinion, mainly because Wang Hao was mentioned, and Lu Zhen and Yang Zhifen were replaced, and no matter how much explanation they made, it was not convincing.

Later, a reporter asked about the strong S-wave technology.

Yang Zhifen and Lu Zhen didn't know anything, one was because they did know less.

Second, even if you know, you can't say.

After the press conference, public opinion about black holes subsided, and many people began to be interested in moissanite.

More interested are scientific research institutions.

The relevant scientific institutions know very well that new substances represent a vast research space, not to mention that new substances also have completely new molecular structures.

With the new molecular structure, there is so much that can be studied.

For example, what is the covalent structure of electrons in the inner shell?

How many of these electrons are involved?

If you do a fine experimental design, you can determine the molecular force and bond force by the energy in the chemical reaction.

Furthermore, it is possible to study the relationship between the covalent molecular forces, bond forces, and external physical properties of the inner layer.

Wait a minute.

Although there are many scientific research institutions that are very interested, the ones that can quickly obtain moissanite are basically domestic related institutions.

In addition, institutions in some friendly countries and institutions with cooperation can also get the materials in the future.

If other institutions want to get the material, they can only wait until the moisspar is officially sold to the outside world, considering that the moissanite is sold, it is likely to be priced in the form of 'jewelry', and the price will be very 'unfriendly'.

……

Strong S-wave experimental base.

The research team was not influenced by public opinion, and remained focused on the work at hand.

There are two aspects to the work, one is to determine the properties of the strong wave region.

On the other hand, there is theoretical research.

The theoretical research work is very complex, and they need to combine the gravitational field, the anti-gravity field, the strong annihilation force field, and a variety of existing annihilation theories to demonstrate the effect of magnetic field interference on the strong S-wave region.

Fortunately, the theory group is very good.

Helen and Chen Mengmeng found a lot of information together and found out what was relevant to the research.

Wang Hao and Huang Zhen sorted out the content of the information together, and they also discussed continuously in the process.

In the end, the point put forward by Helen provided Wang Hao with key inspiration -

Magnetic field hierarchy theory.

The content of the magnetic field order theory is very simple, that is, the magnetic field is the same as the annihilation force, and there is an 'intensity order'.

Conventional magnetic fields can be classified as 'conventional order', and conventional magnetic fields can only affect the annihilation force field of the relatively higher order.

The theory of magnetic field hierarchy was put forward and was affirmed, because there have been enough experiments to prove that the magnetic field they created can only affect the strong annihilation force field.

Although the magnetic field can also squeeze the anti-gravity field to form a thin layer of strong annihilation force, in fact, it is the strong annihilation force field that escapes from the outer layer that affects it, and has no effect on the internal anti-gravity field.

When in the state of bearing ultimate energy, the strength of the anti-gravity field increases, mainly due to the influence of energy and the strong annihilation of the outer layer, rather than the influence of the magnetic field.

On the contrary, the magnetic field can directly affect the strong annihilation force field, and the strong annihilation force field can easily change its shape.

The magnetic field order theory, which sounds very simple, is only a summary of experiments and theories, but it gives the direction of research.

When the analysis was carried out in the direction, the theoretical group quickly came to a conclusion.

"The effect of the magnetic field on the directional strong S wave is mainly the strength of the S wave."

"When the direction of the magnetic field interference is the same as the direction of the directional strong S wave, the intensity of the S wave can be increased, and vice versa, the intensity will be reduced."

Directional strong S waves, with two intensity indicators.

One is the strength of the annihilation force and the other is the strength of the S wave.

In fact, just like the conventional gravitational field, the gravitational field also has two intensities, but the annihilation force of the conventional gravitational field is fixed.

After determining the influence of the magnetic field, Wang Hao concluded, "If our research is correct, we can use the magnetic field to increase or decrease the penetration of strong S waves into the conventional environment." ”

"In other words, we can create a strong S-wave region at close range, and we can also increase the release distance to a very incredible extent......

After he finished speaking, he added, "Of course, whether the research is correct or not depends on the specific experimental ......."

Wang Hao's final voice was a little uncertain, but all the people involved in the meeting were very sure.

They know Wang Hao very well.

Whenever Wang Hao explained something uncertain, the result was very certain.

In other words, the research on the effects of magnetic fields has been completed, and the experiments are just 'validation'.

This progress is very large.

If a directional strong S wave can be created at close range, it means that the directional strong S wave force area can be released to a position close to the device.

The next step is to use other means to study the release of F-rays.

It can be said that the research on the release of F-rays by strong S-waves is a very crucial step.

Wang Hao also thinks so, he checked the research task and found that the inspiration value has reached '89' points.

It's close.