Of the four conventional forces, gravity is ubiquitous.

Particle physics rarely talks about gravity, and only because gravity is negligible, and most of the time it is ignored.

Annihilation, originally defined as a microscopic manifestation of gravity.

So, to some extent, gravity can be thought of as annihilation, or conversely, as gravity.

S wave, which is the definition of radiation detected by a directional gravitational field.

S waves are highly correlated with annihilation forces, so directional S waves create a directional gravitational field.

Directional strong S waves, that is, the directional strong annihilation force field is created, and the strong annihilation force field has a definite effect on microscopic particles.

For example, atoms can be electron-layer transitioning, and matter can also be magnetized.

The effect of the directional strong annihilation force field on the particles is too great.

In the conventional annihilation force field environment, the gravitational field only has external performance, and the direct impact is the force on the object, and the matter is in the anti-gravity field, which only affects the force, like being in a different area of the force environment, and has little impact on the particle level.

The strong annihilation force field can directly affect the particle level, so the directional strong annihilation force field will have too great an impact on the particles, which will make the outer electrons of the atom be squeezed in one direction, which will quickly cause the electron shell of the atom to be stripped away, and the energy drifting inside and outside the atom will be annihilated.

On this basis, a special singularity appears, which constantly emits a strong S wave in the opposite direction, and the particles inside the matter will be affected by a strong annihilation force field in one direction, and the atom itself will be greatly damaged.

The electron layer is stripped away, and it is just a regular effect.

The nucleus will also be greatly affected, because the protons and neutrons inside the nucleus will also be affected by the unilateral annihilation force field, and when the intensity reaches a certain level, the electromagnetic properties of the proton can be stripped away, and the proton will become neutrons, which will cause the nucleus to disintegrate directly.

This is not a novel statement.

In fact, the concept of 'neutron stars' has long existed in astrophysics, and some celestial bodies have even been defined as 'neutron stars'.

In other words, in a sufficiently gravitational environment, the nucleus cannot remain stable, and the protons will be stripped of their electromagnetic properties and turned into neutrons.

A large enough conventional gravitational pull is enough to disintegrate the nucleus, and with the action of a strong annihilation field pointing to the singularity, the situation becomes even more extreme.

The high-intensity directional strong annihilation force field can greatly weaken the repulsion between particles.

Specifically, it can be understood that the repulsion force between the particles is in the opposite direction, and after being subjected to the unilateral directional annihilation force, the repulsion force that is opposite each other will produce an inclination angle.

The stronger the annihilation force, the greater the inclination.

Then, the closer the particles will be, the closer they will be, the more they will fit very closely.

Paul Phil Jones's 'particle fitting' is not accurate, because when the particles fit together, the repulsion force between each other becomes infinite.

However, the term 'infinitely close to each other' is correct to a certain extent. ….

When the particles can be infinitely close, the mass around the singularity will be very concentrated, and the specific extent of concentration can be calculated mathematically, and the accurate result may not be calculated, but the approximate magnitude can still be roughly estimated.

In that environment, a special area with a high concentration of mass will inevitably form around the singularity.

This creates a black hole in the literal sense.

Paul Phil Jones, Chen Mengmeng and others couldn't help but swallow their saliva as they thought about it.

They can't create a strong S-wave with ultra-high magnification, nor can they create a singularity that releases a reverse S-wave.

However, their research is to create directional strong S waves.

In a way, they're working on technology that can create black holes, and what they're missing is direction control and extreme intensity.

Everyone is starting to worry about experiments.

"We're just creating single-rate directional strong S-waves, and there's no danger in it. Of course, you still have to pay attention to the experiment. ”

"It's better not to get involved in the experiment ...... closely"

Wang Hao comforted the people in the theory group, he also felt very afraid, but after thinking about it carefully, he didn't care.

There was danger in the lab, and he could tell in advance.

That's the biggest security.

Only by ensuring safety can we do experimental research with peace of mind and not stop because of danger.

They continued to study theories.

The main content of the research is also on the issues of 'atomic electromagnetic stripping' and 'proton electromagnetic stripping'.

"What does 'electromagnetic stripping' mean in extreme environments where there is a singularity? Shouldn't it be annihilated? ”

They first ruled out the case of annihilation of mass.

Even the annihilation of electrons is not so easy, and the annihilation of mass points only exists in the environment of 'extremely strong annihilation fields that carry the upper limit of energy'.

In the environment where there is an ultra-high magnification directional annihilation force field singularity, the energy required to make the 'carrying energy reach the upper limit' can even be described as infinite, and the concentration of all the energy of a super-large star to one point may not make the carrying energy of the singularity position reach the upper limit.

This can be done mathematically as a rough calculation, and then the conclusion can be drawn by comparing the magnitude of the numbers.

Chen Mengmeng's point of view is very interesting, "If the singularity creates a black hole, the absorbed matter particles, electrons, and protons are deprived of electromagnetic properties." ”

"These special substances or special energies with strong electromagnetic properties are likely to exist in the outer layers of the black hole."

"The strong electromagnetic force on the outer layer will affect the matter inside."

"We can assume that the strong electromagnetic force in the outer layer will continue to increase, and then the impact on the interior will be greater and greater......"

"When a certain limit point is reached, a special reaction may occur with the center, resulting in the formation of a huge electromagnetic storm and a storm of ultra-energetic particles from the surface to the inside......"

In Chen Mengmeng's view, only 'electromagnetic matter or energy is thrown into the outer layer of the black hole', which has a certain foundation.

The follow-up is all the imagination of basic support.

But her point is interesting because it explains a special phenomenon of black holes....

Black hole eruption!

This is a problem that astrophysics has not solved.

Chen Mengmeng is using the existing basis to explain the phenomenon of black hole eruption, and she put forward the idea that the accumulation of electromagnetic matter or energy in the outer layer will produce an 'electromagnetic storm' to a certain extent.

Everyone else was amazed.

Based on this idea, they were able to conduct a series of analyses to analyze the phenomenon of black hole eruptions from the perspective of annihilation theory.

For the next period of time, the theory group has been using the annihilation theory to analyze the problems related to black holes.

There are two main points.

One thing is that the central singularity emits a special strong S wave and has an effect on the particles.

The second point is that the electromagnetic stripping will be repelled into the outer layer of the black hole, and the accumulation to a certain extent will produce an electromagnetic storm, which will cause the eruption of the material inside the black hole.

Although there are only two problems, the theory involved is too complex, and a large number of mathematical problems are involved, and the calculation alone is a headache.

The study lasted two weeks.

Wang Haodu devotes more than four hours a day to participate in theoretical research, and he is also very interested in the construction of black hole related theories.

The physical environment inside a black hole is extremely complex, obviously not explained by singularities and electromagnetic outer layers, and certainly includes many other physical phenomena, but it is quite remarkable to be able to do it here.

Black holes have long been the most mysterious stars in the universe.

Many phenomena observed externally in black holes violate conventional astronomical and physical laws.

The study of the internal physics of black holes is just conjecture out of thin air, without any theoretical basis, and even some related content violates the common sense of physics.

Until now, the annihilation theory has not touched the realm of black holes.

Previous studies related to annihilation theory, such as "The Theory of Cosmic Expansion", talked about black holes as just a concept and definition.

In The Theory of the Expansion of the Universe, large black holes are defined as 'likely to exist forever'.

If the universe expands and contracts once and defines it as a cosmic cycle, then supermassive black holes may have undergone countless cosmic cycles.

This is the explanation of the Theory of the Expansion of the Universe.

Now it is to analyze the two physical phenomena and laws in the black hole, which is equivalent to a detailed analysis of the physics of the black hole.

After completing the relevant research, Wang Hao personally participated in the sorting of the content, which has about 50 pages of mathematics content alone, including more than 20 pages of other related content.

A total of 70 pages of paper was submitted to "Annihilation Physics and Theory", entitled "Annihilation Physics Black Hole Theory".

It is said that it is a submission, but in fact, there is no need to review it at all.

After several years of development, Physics and Theory of Annihilation has become one of the most famous physics journals in the world.

In the latest ranking of academic journals, "Annihilation Physics and Theory" has reached the third place in the impact factor ranking of international physics journals, and the fields of annihilation physics and superconducting physics alone are ranked first, and the influence is much higher than the second place, which is a new grade alone.

The review of "Physics and Theory of Annihilation" is also very rigorous, and the average submission of papers has to go through four reviews, and the publication cycle is more than four months on average. ….

In the field related to the physics of annihilation, papers can be listed in "The Physics and Theory of Annihilation", which can be described by the word "honor".

Many scholars and institutions engaged in the study of annihilation physics hope to publish their papers in the Physics and Theory of Annihilation, which will have greater influence and be recognized by international physics.

Of course, there are exceptions to the rigor of the review.

Wang Hao is an exception.

All research papers related to Wang Hao do not need to be reviewed at all, and they can be directly published in the queue.

This is common in the international academic community.

Other academic journals in the world do not need to review Wang Hao, and of course, Wang Hao rarely submits articles to other academic journals.

A week later, the Physics and Theory of Annihilation published a new issue with only four papers.

"The Theory of Black Holes in Annihilation Physics" occupies two-thirds of the page.

When many scholars saw the new issue of "Annihilation Physics and Theory", they immediately noticed that "The Theory of Black Holes in Annihilation Physics" was written by Wang Hao's research group.

Every time Wang Hao publishes a paper, it will be a very significant achievement.

Last time, I posted content related to gravitational fields and S-waves.

Before the publication of the paper, the outside world did not even know that there was a directional gravitational field, nor did it know what an S wave was, and the related technology was even more unthinkable.

Now that we have published the results again, many scholars and institutions have immediately read the paper, and after reading a presentation, they feel a little disappointed.

Because the content of the paper is about black holes.

Black hole......

It's hard to say what the theory is.

Even if all the studies are correct, they only exist in the theoretical realm, and in addition, similar studies cannot be verified at all.

Many scholars have discussed, "It's a completely new theory that deals with black holes." ”

"It is a study based on the theory of annihilation, that is, it continues to refine the theory of annihilation, but it mentions the concept of super-S waves."

"Super S Wave...... Is it defined as a directed strong annihilation force field? ”

"Directional strong annihilation field? It's probably just a theory, and it's impossible to make it......"

"It feels like something imaginary."

"Although there is no detailed verification, the mathematical framework they have completed is very good and exquisite."

"Of course, it's Wang Hao and Paul who do the research...... They are all the top theoretical physicists! ”

Many people have noticed two of the most critical points.

The so-called "outer layer of electromagnetic matter or energy causes an electromagnetic storm" is just a look, and it has not caused much discussion, after all, only top scholars can understand the paper.

In top-level academic circles, it is not important to understand a black hole eruption as an electromagnetic explosion.

That's also an assumption that astrophysics has existed.

Singularity, it's very different.

The concept of singularity, many people's first impression is the Big Bang, the Big Bang is a singularity that occurs in the Big Bang, and a large amount of primordial matter in the universe was created recently, and the universe itself was gradually formed.

Now the description of a black hole is that there is a singularity in the center, and even a very detailed description of it is made-

Unleash the ultra-high-strength reverse strong S wave!

This concept is very novel and has also aroused widespread discussion in the top physics community, "Creating a directional strong S wave is equivalent to creating a similar environment in a black hole?" ”

"If you master the technology of manufacturing directional strong S waves, you can create black holes?"

"Sounds scary."

"It should be just a theory, and the directional strong S-wave should only exist in an imaginary technical ......" 39314468.

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Chapter 611_