The international physics community continues to pay attention to "Annihilation Physics - Black Hole Theory".

The physics field is discussing its contents.

More scholars regard 'super S wave' as a theoretical concept, believing that it only exists in theoretical imagination, and only relies on the basis of gravitational field and annihilation theory to make a definition of 'super S wave' to construct the physical operation logic inside the black hole.

With the support of this judgment, some people are also pleased that Wang Hao can focus on theoretical research work.

For example, the decision-making level of Ameriken, the military, etc.

They wanted Wang Hao to study pure theory, not to study any high-tech technologies such as annihilation force fields, gravitational fields, and even light-pressure engines.

In the academic field, the most advanced is the study of pure mathematics and theoretical physics.

Mathematicians and theoretical physicists are at the top of the academic pyramid and tend to be the most respected, but their research is often too forward-looking, and much of the content is not directly related to scientific and technological developments.

Take, for example, the Goldbach conjecture.

This kind of top-level mathematical problem, even if it is solved, will only promote the development of mathematical foundation and help build a more complete mathematical system, and it will hardly have any impact on real science and technology.

This is especially true in the field of theoretical physics.

Including string theory, cosmology, and even most of the astrophysical analysis, there is no direct connection with real technology.

The physical research related to the universe and galaxies is meaningless for the interpretation of astronomical observations, at least for the development of science and technology in the short term, and only allows people to understand the universe more clearly.

In fact, many perceptions of astronomical observations are not necessarily correct.

The great impact of the annihilation theory on astrophysics has overturned many research contents in the field of astrophysics, and directly challenged the foundation of the Theory of Relativity, making the achievements of astrophysics based on the Theory of Relativity meaningless.

Most of the study of astrophysics is the interpretation of astronomical observations, and no one dares to say that the interpretation of astronomical observations is correct.

This is especially true as the most mysterious cosmic star, the black hole.

Based on the observed images, astrophysicists have found that the operation of black holes does not conform to conventional physical understanding, and it is difficult to know the internal laws of operation.

It's very difficult to make even assumptions and inferences.

At present, the most influential physical theory in the world is the annihilation theory, and it is not very surprising to analyze the most mysterious black hole problem based on the annihilation theory.

It is a well-established fact that the theory of annihilation is about to enter deep waters.

The theory of annihilation, based on the research of experimental foundations and scientific and technological applications, has almost come to an end, and if we want to go further, we must go deeper into the more mysterious fields of physics.

Microphysics and Astrophysics.

Whether it is microscopic physics, which is mainly related to particle architecture and micromechanics, or astrophysics, which is related to the analysis of the universe, it belongs to the category of pure theoretical physics.

Based on the annihilation theory, Wang Hao's research group combined with the latest gravitational field and S-wave research to analyze the internal physical operation mechanism of black holes, which will not surprise top physicists.

The theory of annihilation, will definitely go this way.

The content of the research is still surprising.

Many top scholars feel full of imagination after reading it.

'Super S waves' are the most imaginative content.

Based on the S-wave, combined with the concept of a strong annihilation force field, it is believed that there is a 'super-S-wave', and the black hole can also be explained in combination with the 'singularity'......

It's magical!

In the same way, imagination is imagination after all, and no matter how imaginative content is, it is not real.

The 'Super S Wave' is amazing, it's just that the probability of its existence is too low.

……

The tech sector doesn't think so.

More than a month ago, Xue Jianping knew the concept of 'super S wave', and he also helped Mr. Xu do a simple analysis.

Not long after that, he was 'tactfully' criticized by Mr. Xu.

"Academician Xue, don't talk nonsense if you don't understand something!"

"For example, super S waves, you can actually associate it with black holes, indeed, very imaginative!"

"However, our work is more practical than our imagination......"

"Ula Ula ~~~"

Now Xue Jianping is still very depressed when he thinks about it, and he almost quit his job at that time.

He was so wronged.

Xue Jianping remembers clearly that his analysis of 'super S waves' only said 'strong gravity', and he didn't talk about black holes at all.

How did it become a 'black hole' when it got into Mr. Xu's mouth?

That's Wang Hao's research.

Anyone knows how advanced Wang Hao's research is, and he has created a new vocabulary in the process of research, who knows what it is?

Strong gravitational attraction is just speculation.

Black hole......

This is wronging!

"I'm so old and I'm still trying to figure out a lot of complex theories, which is already amazing!"

"Wang Hao's latest research, it's normal to be wrong, right? Moreover, I didn't say anything about black holes at all, not at all. ”

Xue Jianping is very sure of this.

He was depressed for a few days, and gradually lost his attention, and then he saw "Annihilation Physics-Black Hole Theory", "Wang Hao's latest research? ”

"Super S Waves, Resolving Black Hole ......"

Xue Jianping watched carefully for a morning before he roughly figured out the specific content, and he communicated with his peers in the physics community again, and was immediately shocked, "Black hole!" ”

"It's a black hole!"

"It turns out that super-S waves are directly related to black holes, which is really ...... No, didn't I already know? ”

"When Mr. Xu asked before, I said that super-S waves are related to black holes......"

"Yes, that's the case, I said about black holes a long time ago, and I was criticized for it, but Mr. Xu still doesn't believe it......"

"Alas!"

Xue Jianping suddenly had a feeling of being wronged.

Although his judgment was wrong, and he didn't say anything about black holes, because black holes were criticized, he could only be regarded as talking about black holes.

Even so, Xue Jianping was still very depressed, and there was no one to tell him about his grievances.

Wang's research is confidential.

Before, only a limited number of people in the science and technology department knew about the 'super S wave', and naturally only a few people knew that they were 'wronged', so he couldn't go directly to Mr. Xu to confront him, right?

In fact, Mr. Xu already knew about it.

Wang Hao's publication of any results will be submitted to the science and technology department, and it will also involve ongoing research, even if it is only the publication of theoretical results, it will be submitted for review.

The science and technology department has reviewed it, and it is still signed by Mr. Xu.

At that time, Mr. Xu also took a closer look at the content, but he couldn't understand it at all, but he only knew about the black hole research related to super S waves.

Then, he knew that he had wronged Xue Jianping, but he was not 100% sure.

After the paper was published, there were many top scholars to discuss, and Mr. Xu didn't need to ask anyone else at all, just read some analysis to get a general idea.

"It's a black hole!"

"It seems that I wronged Academician Xue, and I didn't ask carefully at the time......

"That's right. When I went to find Wang Hao, I just asked what the super S wave was and whether it was dangerous, but I didn't talk about specific issues...... It seems that Academician Xue is still very level. ”

After Mr. Xu was confirmed, he thought about going to apologize to Xue Jianping, but he thought of another question, "Wang Hao is indeed studying black holes!" ”

"So, the experiment might still be dangerous, right?"

He thought about it and started to worry again.

Teacher Xu thought about it for a long time, and talked to Teacher Zhao for a few words, feeling that it felt too strange to go to the Annihilation Force Field Experimental Base again.

Then, he came up with a great idea.

He decided to ask Xue Jianping to represent the science and technology department to go to the Annihilation Force Field Experimental Base and participate in the latest research.

It is said that it is to participate in the research, but in fact, it is to play the role of supervision.

In case the danger of the experiment is very high, Xue Jianping can also prevent and report it in time.

wronged Xue Jianping before, which is equivalent to compensating Xue Jianping, not everyone can participate in Wang Hao's research, and Xue Jianping is an old academician and is not qualified to participate.

This is an opportunity that most scholars cannot seek.

……

Meanwhile.

Wang Hao was preparing to leave the Annihilation Force Field Experimental Base, and he regretted that he could not continue to conduct research, but he also had to go to the light pressure engine project base.

Preparations for space tests are at the final stage.

He had to go to the scene to preside over the work.

The research on super S-wave technology has not yet been completed, but the S-level task of task 3 has increased a lot of inspiration points, and theoretical research has also helped to obtain more than a dozen inspiration points, and the total inspiration value has reached more than 60 points.

He continued to explain his work, "During this time, it is necessary to carry out planned experiments and make good records. Think about the next step in experimental design. ”

"I'll leave the rest of the work to you, and I'll continue to ...... when I get back."

After Wang Hao explained the follow-up work, he took Paul Phil-Jones and Yan Jing to the light-pressure engine experimental base together.

Chen Mengmeng and Helen returned to Xihai University.

Huang Zhen and Ding Zhiqiang continued to stay in the Annihilation Force Field Experimental Base, where they had to participate in the experimental work and provide theoretical support to the team.

The light-pressure engine entered the final preparations for space testing, but there was still research that was not completed, and it was about the work on carrying a small spacecraft.

The anti-gravity spacecraft base of the space agency sent a prototype of a small spacecraft.

The new prototype does not contain a lateral anti-gravity system, only a superconducting battery and a Hall thruster, and is a device for simple testing.

The prototype was only tested on the ground, and will be refined and corrected in the experimental base in the future, and will be mounted on a light-pressure engine.

When it comes time to test in space, the light-pressure engine will test the release of the small spacecraft into space, and will also control the small spacecraft to return to the mount module.

It's a release-to-reclaim process.

This is also the purpose of Wang Hao's early arrival at the experimental base, which is that they want to improve the technology related to carrying small spacecraft.

In addition, there is also some work, the military supports the research of the optical pressure engine, and sent a super-large military satellite weighing 16 tons.

The satellite will also be mounted on a light-pressure engine and will be tested in space along with it.

When the light-pressure engine rises to an altitude of 800 kilometers, it adjusts its speed and releases the satellite, which is to send it to a given orbit.

It's a bit simpler.

As long as the light-pressure engine can go up to 800 km/h and adjust the speed and then release it, there will be no problems.

For Spacecraft Industries, it is of great significance to help the military release large satellites, which directly involves the company's future stable profits and the competition in the international commercial satellite launch market.

Many countries are competing in the commercial satellite launch market, but the main ones that are competitive are the Goose Country, the Flower Grower and Ameriken's Space Exploration Company.

The main reason is cost.

The cost of satellite launch is very high, and the safety and stability of the launch process are also very important.

The cost of launching a rocket is the lowest, and the safety and stability are also very high, and it is still very competitive in the international market.

The security and stability of the goose country is slightly lower, and the launch cost is slightly higher than that of the flower planter.

In other countries, either the security is very poor or the cost is very high, and there is little competitiveness to speak of.

Amriken's Space Exploration Company is special.

They are the only enterprises with super competitiveness, mastering the technology of large-scale rocket recovery, and the cost of satellite launch is very low, even several times lower than that of the flower planter.

However, the recovery technology of large rockets is not too mature, and the safety and stability are much worse.

Previously, it was internationally recognized that when Space Exploration Company perfected the rocket recovery technology, it would definitely be able to monopolize the satellite launch market, and there would not even be any competitors.

Now it's different.

In the face of light-pressure engines, SpaceX has no competitiveness at all.

The reason for this is the cost and the load.

The weight of the light-pressure engine itself exceeds 10,000 tons, and it can easily carry satellites of more than 1,000 tons, and the launch cost is the maintenance cost of the engine itself.

Even when not used for satellite launches, the light-pressure engine needs normal maintenance.

In many cases, for a light-pressure engine, the launch of a satellite is just a 'incidental' thing.

From the perspective of safety, load, launch cost and other aspects, the light pressure engine has incomparable advantages.

When the light pressure engine went to space testing, Spacecraft Industry considered to quickly occupy the satellite launch market.

The size of this market is more than 20 billion US dollars per year, and as long as it occupies the market, it will soon be able to earn back the research and development expenses of light-pressure engines.

"Two of the most important jobs."

"One is the release and retraction of small spacecraft, and after the space test, we will have the light-pressure engine mounted on a functional small spacecraft."

"When the time comes, it will be officially called a 'space carrier'."

"In addition, it is the work of releasing satellites."

"The satellite provided by the military is a V191 weighing 16 tons, and the release of the satellite is very important for us to occupy the commercial satellite launch market in the future."

"It will also help expand the satellite launch market......"

The reason why it is said that it will 'expand the satellite market' is because the current satellites are generally 'very light', mainly because high-weight satellites cannot be sent to space at all.

Rocket launch technology, the general carrying load is less than 20 tons, or even less than 10 tons.

Because of this, the space station can only be transported little by little, and carried out ultra-high-tech splicing and assembly, instead of being transported to space in one go.

It is precisely because of this that the satellites researched and manufactured are very light, and the higher ones are only two or three tons.

The V191, weighing 16 tons, can only be transported into space with a super-large rocket, and the launch cost is very high, and conventional satellites of such weight will not be developed at all.

It was precisely because of the light pressure engine to be tested in space that the military created such a huge satellite.

One is for testing.

Second, the V191, which is equipped with first-order radar equipment, has ultra-long-distance detection and penetrating reconnaissance capabilities, which will raise the military's reconnaissance and detection capabilities to a higher level.

If the launch and release of a satellite of this weight can be easily completed, it will let people know that a huge satellite can also be carried into space.

A lot of companies are building huge satellites.

When the size of artificial satellites grows, more functions can be realized, and it will also allow people to achieve breakthrough development in the field of artificial satellites.

This will directly change the satellite market, greatly improve the technology in the space field, and at the same time greatly expand the satellite launch market.