From University Lecturer to Chief Academician

Amari Cornell University's Laboratory of Elementary Particle Physics is one of the most famous particle accelerator physics research centers in the world.

They have the top physics research team, and they are very professional in the field of particle research, with many well-known top results.

After the establishment of the anti-gravity experimental group and the determination of the focus on the direction of "communicating the properties of the gravitational field", the research of the experimental group has also become very concerned.

The "light speed reduction phenomenon" is not the first discovery of the anti-gravity experiment group of the particle physics laboratory.

They had already made some discoveries before, but the impact of the release was not that great.

The 'light speed reduction phenomenon' is of great concern because it violates conventional physical properties.

Normally, the reduction in the speed of light does not seem to be a major discovery, because light travels at different speeds in different media.

For example, the speed of light in a vacuum is 300,000 kilometers per second.

The speed of light in water is 225,000 kilometers per second.

The speed of light in glass is 200,000 kilometers per second.

However, Einstein's theory holds that the speed of light is constant, which seems to contradict the difference in the speed of light above.

A constant speed of light means that the speed of light does not change depending on the reference system.

In fact, the moving speed of light in any propagation medium is constant, and the final measured speed of light is different because the moving distance of light in different media changes.

When light propagates in glass and water, because there are substances in the environment, there will be a process of photons being absorbed and then released, and finally the overall moving speed of light is slowed down. In essence, it is not the slowing down of the speed of light. It's the process of photon absorption and release that creates a delay.

Because of this, the antigravity team of the Laboratory of Elementary Particle Physics will cause international heated discussions until the speed of light is reduced, because the environment they tested is a vacuum environment.

The process of photons being absorbed and released naturally does not exist in a vacuum environment.

However, the result of the measurement is that the speed of light has decreased, and the only factor that has changed is the AC gravity field, so it can be concluded that the AC gravity field directly caused the decrease in the speed of light.

So why would an AC gravitational field cause the speed of light to slow?

How did this effect happen?

This issue has aroused heated discussions in the international physics community, and every physicist knows very well that the reduction of the speed of light in the AC gravity field is definitely an amazing discovery.

...

Wang Hao also knows that new discoveries are very important, and even the system prompts the research of annihilation theory, and the inspiration value has been improved.

He has thought about it to a certain extent.

The system of annihilation theory was created by Wang Hao. He naturally has a very good understanding of annihilation force. Essentially, annihilation force is the manifestation of space squeeze.

Therefore, his understanding of the speed of light is "the imperfect form composed of mass units, under the action of space squeeze, advances at the highest speed, so as not to be 'annihilated'".

Considering it from this angle, the essence of the anti-gravity field is to create an area of ​​‘space compression and weakening’.

"If you think of light as a particle, it's an imperfect microstructure."

"If you think of light as a wave, it is a bunch of imperfect microstructures connected together, but no matter how you understand it, light will not be directly affected by space squeeze, or interact, so there is only energy , there is no quality."

Wang Hao had already found a research direction. He thought about it and recruited Lin Bohan and Belkar, and later Paul Phil-Jones and his students Xu Chao, Chen Mengmeng and Helen.

"I decided to organize a research team, and you are free to choose to participate or not to participate."

"You should all already know that Cornell University's latest discovery reduces the speed of light in an environment with an alternating gravitational field."

"I will be doing research on this problem, and I have found the main direction."

"But we still need everyone to study, think, and discuss together..."

Wang Hao briefly explained that the main reason why he recruited so many people to study together is because it is easy to produce results when many people study together.

Research progresses when everyone has the right ideas.

In addition, there is no confidentiality problem in theoretical research, and scholars who can help the research can participate.

As for the few students, Helen's level is already good enough to join the research group.

Chen Mengmeng is relatively inferior, but from the perspective of cultivating students, getting her involved will be of great help to her personally.

Xu Jie is completely incidental.

Wang Hao has already half-give up on Xu Jie. In the future, Xu Jie can choose Zhang Zhiqiang to do research in the direction of mathematics and computer science. He is really not suitable for pure mathematics research.

After Wang Hao finished speaking, naturally no one would refuse to join the research team. They were all looking forward to the new research.

After that, Wang Hao began to explain the content, "I have found the direction. Our work can be understood as studying the interlayer content of topology and semi-topology."

"This is a purely mathematical study, which can also be understood as a study of physical theory."

"I hope to find a new special form."

"It is very meaningful to demonstrate waves and massless particles..."

Because the research direction has been found, Wang Hao believes that the difficulty of research is not high, but requires a certain amount of imagination.

If light is regarded as composed of particles, that is, composed of photons, he believes that the shape of photons can be regarded as a "topological structure". The topological structure is very close to a dot, but it is not a pure dot.

If the topological structure is a dot, it can be understood that it is equivalent to the mass unit and can be annihilated directly.

"Close to a dot", naturally it is not a dot, and cannot be annihilated.

But what kind of shape comes close to a dot, but doesn't become a dot?

This is where imagination is required.

As long as you can imagine this shape, no matter what the shape is before the topology, you can make targeted analysis and calculations.

...

It took Wang Hao a long time to explain the research direction.

Those who participated in the research couldn't wait to get into the work.

However, there was a problem with Birkar. He found Wang Hao and said, "It is difficult for me to complete so many calculations and analyzes by myself."

Birkar said, "I need a helper, preferably a scholar in the field of algebraic geometry, and the current work is not directly calculated, but also requires imagination..."

"That is, the young algebraic geometer, right?"

"That's right."

Wang Hao thought about it, and immediately thought of a person, Zhang He, the leader of the calculation team.

He found Zhang He and invited him to join the research team.

Naturally, it was impossible for Zhang He to refuse, or no mathematician could refuse to do research with Wang Hao.

at the same time.

On the campus of Capital University, Gao Zhenming and the principal Ye Qing walked together. They had just attended the school meeting, and Ye Qing was also concerned about the new academician of the school.

Ye Qing asked about Gao Zhenming's recent research work, "Now the direction of algebraic geometry is the most concerned field of mathematics. Academician Gao, you are the most famous expert in algebraic geometry in China. Have you considered researching the direction of superconducting mechanism?" ?”

The superconducting mechanism, that is, the direction of semi-topological microscopic morphology, is the focus of the academic community.

After hearing this, Gao Zhenming's face was filled with bitterness.

He had considered doing research in the direction of semi-topological microscopic morphology before, that is, doing the work of simplifying semi-topological theory.

As a result, just at the beginning, Wang Hao and Bill Carr jointly introduced a "weakened Hodge conjecture", directly linking semi-topology and algebraic geometry.

This also made his research meaningless.

Although the new achievements of Wang Hao and Birkar have not been confirmed internationally, most scholars believe that there is no problem.

It is not easy for him to think about the direction now.

If it is still a superconducting mechanism, then he can only do research in the direction of microscopic morphology and calculation. As for the "semi-topological" simplification work, there is nowhere to go.

"well……"

Gao Zhenming heaved a long sigh, and spoke to Ye Qing with a wry smile.

Ye Qing comforted, "Academician Gao, don't compare yourself with Wang Hao, semi-topological theory is their achievement, we can do research in this direction, but it is impossible to surpass them. "

"I also know how to weaken Hodge's conjecture. In fact, I think this research is very good."

"Maybe, you can do further work on the basis of weakening Hodge's conjecture?"

Gao Zhenming was stunned for a moment, "You mean, to study Hodge's conjecture?"

Ye Qing said, "It doesn't have to be Hodge's conjecture, it just needs to be further explored in the field of algebraic geometry."

Gao Zhenming thought about it and nodded, feeling that what Ye Qing said made sense.

Although the expression problem of semi-topology has been solved, the connection between semi-topology and algebraic geometry weakens Hodge's conjecture, and he can continue his research in the direction of algebraic geometry on the basis of it.

Even if the Hodge conjecture problem cannot be completed, it is also a good direction to continue to do in-depth research and contact topological expressions.

only……

It is still difficult to do research on your own to achieve results!

Gao Zhenming is self-aware. He is indeed the top expert in algebraic geometry, but most of the research results were completed many years ago. In recent years, there have been no heavyweight results.

This is mostly because of... age!

As we get older and learn more about the so-called "correct knowledge", we will be restricted by rules and regulations, and gradually lose the "imagination" of our youth.

To do such cutting-edge research, he needs other collaborators.

Collaborators need to have enough foundations, and they also need to be creative, preferably the kind of genius...

Gao Zhenming immediately thought of the most suitable person, his excellent student Zhang He.

After returning to the office, he simply called Zhang He and cared about his work.

Afterwards, Gao Zhenming asked, "Zhang He, are you busy lately? I have a new idea and want to do research with you..."

After saying such words, Gao Zhenming didn't even think about Zhang He's possible rejection, because Zhang He was his student, and what he was doing was only the work of the calculation group.

He believes that Zhang He will definitely be interested in theoretical research.

However, Zhang He's reaction was unexpected. He said, "Mr. Gao, I don't have time recently because I joined Academician Wang's research group and I'm working on a mathematical problem between semi-topology and topology."

"Besides, I work with Mr. Bilkar."

"I also have to take care of the work of the computing group..."

After Gao Zhenming was rejected, he encouraged Zhang He with depression, and then grinned involuntarily.

Zhang He?

He joined Wang Hao's research group and also worked with Birkar?

If there is such a scientific research environment, I really wouldn't be interested in doing research with him, but Zhang He is his student...

The student has left the teacher, why does it feel like betraying the teacher?

Gao Zhenming felt that he was not as good as a student. Even he hoped to join Wang Hao's research group and work with Birkar.

"Oh~~"

Gao Zhenming sighed again, he felt that since he was elected as an academician, everything has become very difficult.

...

Zhang He is really satisfied with the current working environment. He works with Fields winner Bill Carr every day and officially becomes a member of the research team.

He hopes to be able to achieve results in research and truly make contributions in the direction of theory.

So Zhang He became the most active one in Wang Hao's research group. He devoted 100% of his energy to his work, thinking hard about every problem.

This effort has paid off.

When the research meeting was held again, Zhang He listened to Wang Hao's explanation, and suddenly came up with a new idea, and he immediately expressed his opinion, "Academician Wang, the problem we are encountering now is that we can't imagine , what is the corresponding topological form.”

"It may not be a normal three-dimensional form, it may be two-and-a-half-dimensional, or three-and-a-half-dimensional. It is difficult to imagine alone, and it may not even be imagined."

"So why don't we do the reverse derivation from the direction of algebraic geometry?"

"The geometric forms corresponding to some equations are very complicated, and we can do mathematical derivation from the direction of algebra. If it is only for a shape that is a little more complicated than the simplest topological form..."

"We can somehow do the math."

What Zhang He said immediately caught Wang Hao's eyes, and the rest of the research team also began to think about it.

Bilkar immediately said, "It makes sense! It makes sense! We can start from the expression direction of semi-topology to do analysis and calculation, and find a 'special case' to connect topological problems."

Everyone else reacted too.

This is indeed a feasible research method. Topological shapes that are more complicated than dots can be understood as the simplest equation plus a parameter in mathematics.

They can conduct research on it and analyze and calculate it from an algebraic point of view.

The direction of research is determined.

The whole research group is devoted to the analysis and calculation work, and the basis of their research is to weaken the Hodge conjecture and use the semi-topological expression conclusion to deduce the topological form.

When the research really had a direction, the process of analysis and calculation was relatively simple, and it took only five days for them to come up with a result.

That is the expression of three sets of columns.

Wang Hao looked at the expression content on the whiteboard, and couldn't help but smile on his face.

Under the watchful eyes of everyone in the research team, he began to make calculations based on the content, and finally came to two conclusions.

Soon, the calculations are all done.

The research also ended here. When Wang Hao announced the results, he was also very satisfied with the speed of the research. When the number of research groups increases, it will indeed promote the research.

When the ideas of many people are gathered together, the most correct direction can be quickly found.

The research on the reduction of the speed of light in the AC gravitational field was originally a very important theoretical research content, but it only took half a month to get the results.

"This is the correct way to open scientific research!"

Wang Hao sighed.

...

After completing the research, the research team began to write the paper and made a brief summary.

After that, Wang Hao directly submitted a manuscript to the journal "Universe and Microphysics". The title of the paper is——

"Photonic research: 2.5D topological framework".