From University Lecturer to Chief Academician

The description of "directional strong S-wave technology" in the moissanite results has aroused international public opinion.

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

Some professionals in theoretical physics went to online public opinion to analyze it. "The "Annihilation Physics - Black Hole Theory" believes that the center of the black hole is a singularity that emits directional strong S waves."

"The singularity emits inward directional strong S-waves all around, which is to release a strong inward annihilation force field."

"This extremely special field force will tear apart the atomic nucleus and strip away the electrical properties of the atom, including the positively charged protons. The electromagnetic properties will also be stripped away and converted into neutrons, concentrated around the singularity, forming an astonishing mass density. center."

"In the process of the electromagnetic properties of matter being stripped away, the electromagnetic properties will be thrown out to the outer layer and concentrated on the surface of the black hole. When the intensity reaches a certain level, an electromagnetic storm will be caused."

"This is also the reason why black holes will periodically experience electromagnetic storms and eject internal matter."

"The 'directional strong S-wave technology' used in the manufacture of carbon silicon spar can only turn silicon carbide into chemical molecules with a covalent structure of inner molecules, which means it has not reached the level of tearing apart atomic nuclei."

"The difference between the two is intensity."

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

"The second is the direction. Because the data is very limited, we are not sure about the direction of the strong S wave, and we are not sure whether Wang Hao's team has mastered the technology to create a strong S wave at a single point, which is similar to the singularity in the center of a black hole."

"If you master this technology, it would be really scary..."

The analysis of professional theoretical physicists has not alleviated the concerns of public opinion. Any technology associated with black holes will appear very scary.

Even if the directional strong S wave is not a technology for creating black holes, its influence is very large, because the directional strong S wave technology creates new molecules, changes the molecular properties, and creates inner electron covalent molecules, which directly affects the ' Chemistry' subject.

This isn't just speculation.

In fact, the impact on chemistry has been explained in the results. The chemical properties of silicon carbide molecules in moissanite have been changed.

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

This content is not conspicuous in the results paper, but it has attracted the attention of many professionals, because it must form a brand-new organic molecule, which involves organic chemistry, biomaterials and other disciplines.

In short, subjects that had no impact before 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 brand-new technology.

This technology is even more amazing than gravitational field technology. Gravitational field technology only creates S-waves, which means creating new space to create areas with equivalent gravitational effects. Directional strong S-wave technology creates "strong annihilation force characteristics." "Gravity" is bound to have astonishing destructive power.

Of course, the outside world can only speculate on what specific characteristics it will have, but public opinion believes that it must be very terrifying.

The direct impact now is moissanite, which is very attractive.

The results released by "Annihilation Physics and Theory" also come with a picture of carbon silicon crystal, which is a regular 2tetrahedron diamond. Together with the published series of physical and chemical properties, people generally believe that Moissanite has huge jewelry potential.

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

"It is very beautiful, no worse than a diamond."

"It can completely replace diamonds!"

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

Nowadays, most diamonds are artificially made, because it is impossible to identify natural diamonds and artificial diamonds together. The identification method of 'diamond experts' can be simply summed up in one sentence - the quality is worse. are natural diamonds.

This obviously doesn't make any sense.

It is also a man-made product. The beauty of silicon carbide is no less than that of diamonds. It is much larger in size, which will naturally affect the value of diamonds.

…

Ignore the heated discussion in 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. They went to the National Materials Science Research Center and publicly accepted interviews with several media.

Both of them looked very excited.

They are already well-known scholars in the circle, but in fact, they have not been interviewed a few times. There were two or three times in my memory, and they were just academic reporters. The interview content was only published in academic journals, and it is impossible to appear at all. the scope of public opinion.

It's different now.

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

Yang Zhifen and Lu Zhen both looked like they were just starting out and felt very nervous.

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

"Ula Ula~~"

Relevant content is like a lot of noise that pollutes the ears to the reporter's ears, because its content has already appeared in the results paper, so what's the point of continuing to introduce it?

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

Journalists are interested in other issues.

When it came to the question and answer session, a reporter couldn't help but ask, "Everyone is concerned about moissanite looking a lot like diamonds. Can it be used as jewelry? What is the output like?"

Lu Zhen hesitated for a moment, skipped the issue of production volume, 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. So far, we have found that the lowest temperature required for chemical reactions is 800 degrees Celsius."

"In fact, except for very special reactions, general reactions require an environment above 1,000 degrees Celsius. As for the physical properties, there is no need to introduce them. It has higher hardness and toughness than diamond."

"I personally think that moissanite can be used as jewelry. It is more beautiful than diamond and has a regular 24-sided structure."

"Under the irradiation of light, carbon-silicon crystal with few impurities will show colorful light."

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

Lu Zhen suddenly smiled as he spoke. He took out a moissanite and placed it in front of the camera lens for the media reporters to take pictures.

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

Under the lighting of the scene, it was obvious that there were all kinds of lights all around.

A lot of cameras and cameras were pointed at the moissanite to take pictures. The area around the interview became noisy. Some reporters even wanted to get closer to take pictures, but fortunately they were stopped in time by security personnel.

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

This time it was Yang Zhifen who answered the question.

They were interviewed mainly to respond to public opinion concerns and were fully prepared for relevant issues.

"Strong S waves are not black hole manufacturing technology."

"The two are not directly related. 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 be at least several hundred times stronger."

"Obviously, it's impossible."

"Academician Wang Hao said this issue..."

The reason why Wang Hao is mentioned is to increase his persuasiveness, "The strength of high magnification is not only high technology, but also requires environmental support."

"Even if we master the most advanced technology, it is impossible for the earth's environment to produce high-magnification strong S waves, so there is no need to worry about black holes."

This explanation reassured the reporters and was enough to calm public concerns. It was mainly because Wang Hao was mentioned. If it were Lu Zhen and Yang Zhifen, no matter how many explanations they gave, they would not be convincing.

Later, a reporter asked about the technical issue of strong S waves.

Yang Zhifen and Lu Zhen just asked questions and didn't know anything, partly because they really knew relatively little.

Second, even if you know it, you can't tell it.

After the press conference, public concerns about black holes subsided, and many people became interested in moissanite.

I am more interested in scientific research institutions.

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

There is so much that can be studied about a completely new molecular structure.

For example, what is the covalent structure of the inner electrons? What is the form of covalency?

How much of it is electronically involved?

If careful experimental design is done, molecular forces and bond forces can be measured through the energy in chemical reactions.

By continuing to expand, you can study the relationship between inner covalent molecular forces, bond forces and external physical properties.

etc.

Although many scientific research institutions are very interested, those who can quickly obtain moissanite are basically domestic institutions.

In addition, institutions in some friendly countries and cooperative institutions can also obtain materials in the future.

If other institutions want to get the materials, they can only wait until the moissanite is officially sold to the outside world. Considering that the sales of moissanite are likely to be priced in the form of 'jewelry', the price will also be very 'unfriendly'.

…

Strong S-wave experimental base.

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

The work has two aspects. One is to measure the properties of the strong wave region.

On the other hand, it is theoretical research.

Theoretical research work is very complex. They need to combine gravitational fields, antigravity fields, strong annihilation force fields, and a variety of existing annihilation theories to demonstrate the impact of magnetic field interference on the strong S-wave region.

Fortunately, the theory team is very good.

Helen and Chen Mengmeng found a large amount of information together and found out the content related to the research.

Wang Hao and Huang Xing worked together to sort out the information and discussed continuously during the process.

In the end, Helen's point of view provided key inspiration for Wang Hao——

Magnetic field level theory.

The content of the magnetic field level theory is very simple, that is, the magnetic field, like the annihilation force, has a ‘level of intensity’.

Conventionally produced magnetic fields can be classified into the 'regular level', and conventional level magnetic fields can only affect relatively higher-level annihilation force fields.

The magnetic field level theory was affirmed as soon as it was proposed, 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, what is affected is the strong annihilation force field escaping from the outer layer, and has no effect on the internal anti-gravity field.

When in the state of carrying limit energy, the intensity of the antigravity field increases mainly due to the influence of energy and the outer strong annihilation thin layer, rather than the influence of the magnetic field.

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

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

When analyzing along the direction, the theory team quickly reached a conclusion.

"The influence of magnetic fields on directional strong S waves is mainly the intensity of the S waves."

"When the direction of the magnetic field interference is consistent with the direction of the directional strong S wave, the intensity of the S wave can be increased. On the contrary, the intensity will be reduced."

Directional strong S wave has 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 strengths, but the strength of the annihilation force of the conventional gravitational field is fixed.

After determining the influence of magnetic fields, Wang Hao concluded, "If our research is correct, magnetic fields can be used to increase or reduce the penetration of strong S waves into conventional environments."

"In other words, we can create strong S-wave areas at close range, and we can also continue to increase the release distance, even to an incredible level..."

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

Wang Hao's last words were a little uncertain, but everyone involved in the meeting was very sure.

They know Wang Hao very well.

Whenever Wang Hao explains something uncertain, the result is very certain.

In other words, the research related to the influence of magnetic fields has been completed, and conducting experiments is just a 'verification'.

This progress is very large.

If directional strong S-waves can be produced at close range, it means that the directional strong S-wave field force area can be released to a location close to the equipment.

In the next step, other means can be used to study the release of F rays.

The research on "strong S wave releasing F rays" can be said to have taken a very critical step.

Wang Hao thought so too. He checked the research task and found that the inspiration value had reached 89 points.

Very close.