From University Lecturer to Chief Academician

Strong S-wave research base.

Wang Hao received the forwarded email and downloaded the attachment.

The email sent by Delete was a bit large, including cosmic ray chemistry, cosmic ray-related information, and also included a measurement data of the chemical element composition of cosmic rays.

Much of the content of cosmic ray chemistry involves astrophysics, studying the chemical composition and isotope composition of cosmic rays to study the development and transformation processes of the universe, galaxies, stars and other fields.

Cosmic rays are relatively easy to understand by studying the cosmic rays received by the earth.

The Center for Space-Time Extreme Chemistry, where De Laet is located, has been doing the work of receiving and measuring cosmic rays. The content of the measurement includes the composition of elements, the proportion of protons, neutrons and other particles, as well as frequency, waveform, energy and other data. .

These contents cannot be said to be very precious, they are just experimental research and measurement results, and they will also publish some contents that can show the results.

In other words, similar content can also be found in some related results reports.

But even if it is not precious, it is actually very precious. After all, the published content of the results report and paper is only an excerpt, and not all the data will be released.

What Dellater sent was the measurement results of several different types of cosmic rays, along with various analyzes conducted by his team.

Such content is generally not found. Only professional institutions and professional teams can provide such detailed experimental measurement data.

This is true in the field of scientific research.

For example, on the theory of anti-gravity technology, the Anti-Gravity Center has been publishing results until now, but other national institutions do not have complete theories.

The information they learned was only the experimental results, the 'rough' materials used and other data.

Even if the list of elements contained in the material used is detailed, it is impossible to restore the material.

Wang Hao can mobilize data from domestic scientific research institutions, but there are no relevant professional institutions in the country. There are only some small teams studying astronomy. Their expertise is obviously not as good as the Center for Space-Time Extreme Chemistry, which has been engaged in research for decades.

Even in the field of astronomy, cosmic ray chemistry is a niche within a niche.

This type of research cannot create any economic value, is rarely taken seriously in the academic field, and only has a certain influence in astronomy.

Wang Hao knew that the content sent by Delete was rare, so he immediately wrote a thank you email and marked Delete's email address.

In this way, the email sent by Delete can be forwarded directly by the mailbox management specialist, and there will also be a special reminder with a mark.

After that, Wang Hao read the content with peace of mind.

He browsed the relevant research introductions and carefully looked at the analysis of various types of cosmic rays, and then became more serious.

In the eyes of most people, cosmic ray measurement data are just data, just like it seems normal that visible light has various frequencies and wavelengths.

But Wang Hao noticed something unusual. He thought of a question when he contacted the annihilation theory -

"How are these cosmic rays formed?"

"A black hole erupts? A star explodes? Or is it violent activity within the galaxy that releases rays..."

Wang Hao hopes to understand the principles behind it.

At the same time, he had a hunch that there was some connection between it and strong S-wave excited F-rays.

This premonition is very strong.

It feels like solving a very difficult math problem. When you are puzzled about the solution, you see a new method for a certain problem.

The two don't seem to have much to do with each other, but I feel like I can solve my problem using similar methods.

Wang Hao immediately decided to give it a try, and he called everyone in the theory team to conduct research together.

"We need to combine annihilation theory to analyze various types of cosmic rays."

"The National Radar Center has also provided some data, which can be used as a corresponding supplement. We need to analyze its underlying commonalities."

"At the same time, combined with the annihilation theory..."

Wang Hao spoke seriously.

Helen, Chen Mengmeng, Ding Zhiqiang, and Huang Xing all began to look at the data seriously.

Research related to cosmic rays is somewhat unfamiliar to them. They have not learned about related fields, but they can also understand the data content.

Helen looked at it for a while and asked with surprise, "This data is very precious. It is a direct experimental measurement result. Teacher Wang, where did you get it from?"

"Professor Delight from the Center for Chemistry at the Limits of Space and Time."

"University of California, Irvine? Delete... seems to be very famous, I've heard of it."

"right."

"Professor Delight...it's a pity that the research he did..."

Helen didn't know how to evaluate it, so in the end she could only shake her head.

Others knew what she meant.

De Laite's team is engaged in astrophysical research, whether it is cosmic rays or cosmic rays, the ultimate goal is to analyze the evolution of the universe.

After the development of annihilation physics, Delete's research field was greatly impacted, and most of his research results would be denied.

This kind of thing is a serious blow to scholars.

They didn't continue talking about Delight.

Helen said, "These data are very important, and they also make up for one of our shortcomings. We have little understanding of space chemistry. Contents related to astronomy are all deduced and analyzed by theory, and studying astronomy is indispensable for studying the universe. Wire."

Others nodded in agreement.

Of course, astrophysics is not based on imagination. In addition to observing the universe, the most important thing is to measure various types of cosmic rays.

The earth receives many energy waves from the universe, but not many of them can penetrate the earth's atmosphere. High-energy cosmic rays are one of them.

The measurement of these cosmic rays will also provide evidence for astrophysical research and analysis.

Wang Hao also agreed with Helen's statement. He said, "When the annihilation theory has been researched to this point, it must be combined with astronomy and physics."

“Many astrophysical results have been denied, but their content still has certain value.”

"Like the measurement of cosmic rays, these data are obtained experimentally, and the results are certain."

"Our analysis must be combined with the annihilation theory."

"such a pity……"

Wang Hao said with some regret, "We can only conduct research through a small amount of measured data. It would be great if we could conduct close research on large stars or black holes. Then we would definitely get a lot of new content and help us." Perfect the theory.”

"..."

Everyone else couldn't help but grin.

Close study?

How to study?

Ding Zhi emphasized, "Maybe anti-gravity spacecraft can do it, even if it is close to a black hole, there will be no problem."

Huang Xing agreed, "Indeed, only anti-gravity spacecraft can approach black holes. This is good news. At least we have mastered a technology that can approach black holes."

The two of them teased each other casually, making other people's eyes light up when the time came.

"You seem to have discovered a blind spot!" Chen Mengmeng said, "I have always felt that the light pressure engine is the most advanced aerospace carrier, but in fact it is only relative to the earth's environment."

"If it is a hypergravity planet, the space carrier cannot approach it at all. No matter how high the light pressure thrust is, it cannot keep up with the planet's gravity..."

"Even gravitational field technology is not enough. If you want to get rid of the gravity of a super large star, you can only use anti-gravity technology."

Wang Hao nodded in approval, "That's why we attach great importance to anti-gravity spacecraft. The aerospace mothership supported by the light pressure engine is suitable for navigation in the universe. If it is used as a mothership, to approach and land on the planet, an anti-gravity spacecraft is still needed."

The thrust of the light pressure engine is indeed very strong, but no matter how strong the thrust is, it is only a conventional thrust.

The power of the space carrier is enough to take off in the earth's environment. If it were replaced by a planet several times the size of the earth, the space carrier would not be able to fly after landing.

Anti-gravity spacecraft are different.

Its principle is to create an extreme anti-gravity field. The highest-end lateral anti-gravity technology can even create anti-gravity with a strength exceeding 99.9%, which can reduce the gravity of the spacecraft itself by more than 1,000 times.

If further research is carried out, it is possible to build a spacecraft with higher anti-gravity strength in the future, even if it is allowed to approach a black hole.

This is also a pity.

It is now possible to create technology that can escape the gravity of a black hole, but the distance between the black hole and the black hole is too far away.

So far, the closest black hole observed by humans is V616 Monoceros, which is about 2,800 light years away from the solar system. The second closest black hole is X-1 in Cygnus, which is about 6,100 years away from the solar system.

You can only look at the numbers for this distance.

With current technology, it is very difficult to get out of the solar system, because the diameter of the solar system is one light-year, and the acceleration limit of the space carrier is unlikely to exceed half the speed of light.

Without considering safety issues and acceleration time, it will take more than two years to get out of the solar system. It is simply impossible to explore between galaxies.

Wang Hao thinks more seriously about his current research.

They are studying f-rays excited by strong s-waves. It looks like a technique for studying burst rays, but in essence, they are studying space.

Use technology to conduct experiments and collect data to explore the mysteries of space.

Only by analyzing space to a certain extent and mastering the space technology associated with it can humans possibly go out of the solar system and explore the universe.

Otherwise, even if we build a large spacecraft that can fly at the speed of light, it will seem a bit insignificant in the face of the extremely large distances in the universe.

Human life is too short.

Even if you spend your whole life sailing at the speed of light, the distance you can travel is only a few dozen light years.

…

In the next period of time, the theoretical team has been analyzing the chemical composition of various types of cosmic rays based on the annihilation theory, hoping to get something.

What they study is the common characteristics of various types of cosmic rays.

The compositions of various types of cosmic rays are different, but they still have certain commonalities. If you find the commonalities and analyze them in conjunction with evolution theory, you can get something.

The research results of the theoretical group are remarkable.

After a period of analysis and discussion, they quickly connected the theory of cosmic rays and black holes.

"Theoretically, there are several types of rays that can be produced from the electromagnetic storm in the outer layer of a black hole."

Wang Hao concluded, "This is just deduced and just a possibility. We have not conducted detailed research yet."

"The next steps are clear."

"Annihilation Physics - Black Hole Theory" contains an explanation of the special physics of the singularity at the center of a black hole, as well as an analysis of the electromagnetic properties of matter stripped off by strong S waves.

The electromagnetic properties of matter will be thrown to the surface of the black hole. When accumulated to a certain extent, they will explode and generate an electromagnetic storm.

In electromagnetic bursts, particles in the black hole are ejected, forming some types of cosmic rays.

Although the statement is very clear, in fact they have not done any relevant research. The so-called "electromagnetic storm of black holes" is just a conclusion drawn from astrophysical research on black holes.

If you want to conduct further research, you must analyze the electromagnetic arrangement on the surface of the black hole, and you must also know the relationship between the electromagnetic storm outbreak and the energy inside the black hole.

To put it simply, to what extent does the outer electromagnetic accumulation accumulate before an electromagnetic storm breaks out?

This is a very complex issue.

The electromagnetic storm that occurs in the outer layer of a black hole is a very complex and influential cosmic phenomenon, and it also releases a very huge amount of energy.

It is not surprising that these energies include various types of cosmic rays. In fact, cosmic rays may be the products with the lowest energy density among them.

It was like a missile exploding, and only a faint amount of heat could be felt from a very far distance away.

On the distant earth, even ‘heat’ cannot be felt, and the remnants of the black hole’s electromagnetic storm (cosmic rays) can only be detected through various scientific means.

The information available to the theory team is very limited, and it is simply impossible to analyze black hole electromagnetic storms in combination with annihilation theory.

They can only discuss the possibility of various physical phenomena contained in it through analysis.

Ding Zhiqiang put forward a point of view, "The electromagnetic storm of the black hole will eject matter, particles, and a large amount of energy, but will it affect the strong annihilation force field inside the black hole?"

The others' eyes suddenly lit up.

According to the magnetic field order theory, the magnetic field will affect the strong annihilation force field of higher order. The magnetic field on the surface of the black hole is generated by stripping away the electromagnetic properties of matter, and its order must be lower than the strong annihilation force field inside the black hole.

The electromagnetic storm will definitely erupt a huge magnetic field, which is likely to affect the force field inside the black hole.

"This may also be one of the reasons why black holes eject a large amount of matter and energy!"

Wang Hao said with great certainty.

At this point in his research, he was able to get correct feedback from the system.

What Ding Zhiqiang deduced directly increased the mission inspiration value by four points.

Wang Hao couldn't help but be surprised. The mission inspiration value had not increased for a long time, but just now it increased by four points, reaching '93' points.

This shows that the direction has been found.

Wang Hao expressed his approval of Ding Zhiqiang's idea and said seriously, "I understand."

"The next step is to proactively create an 'electromagnetic storm' in strong S-wave areas."

"By simulating a special electromagnetic environment, it is possible to excite the strong S-wave field force and create special F-rays!"