This year's Nobel Prize Ceremony was really exciting.

After the award ceremony ended, media reporters reported a lot on it, and the awarding of the Nobel Prize in Physics also became a high-profile topic.

The most popular among them is Paul Phil-Jones.

Paul Field-Jones did what he said and gave an unforgettable acceptance speech. He wore a Superman suit and compared himself to Superman who came to the earth, while other scientists compared him to Superman's hometown of Krypton.

Star.

The metaphor in this speech sublimated his behavior. In fact, science is very similar to his metaphor. Only a very small number of people can win international awards. Are other scientists who have not won awards worse than those who have won?

Not always.

Many scientists have been working hard, and the basic research they have done has played a very important role in promoting the development of science. However, they are unable to win international awards just because their personal contributions are not outstanding or they lack some luck.

They are the unknown Kryptonians.

Nobel Prize winners, either because their personal contributions are not outstanding, or because they are very lucky, they successfully came to the earth and became known to the world, becoming supermen in the scientific world.

This award-winning speech was widely reported by the media and received numerous comments from public opinion.

Some people are dismissive of this, thinking that Paul Field-Jones' behavior is sensational.

Some people who know Paul Phil-Jones just smile indifferently, because this is very similar to what Paul Phil-Jones can do. Most people still have a positive evaluation of this.

This is even more true in the public sector.

Most people talk about this matter with great interest, but they don't care about the formality of the Nobel Prize Ceremony. On the contrary, they think Paul Field-Jones has great character.

Think about it....

When everyone is wearing formal attire, Paul Phil-Jones dressed up as Superman in a unique way. It takes a lot of courage to think about it.

That is definitely something that ordinary people cannot do.

Although academic circles have mixed opinions on this, public opinion highly praises Paul Phil-Jones, which has also given Paul Phil-Jones a large number of admirers, or "fans."

Paul Phil-Jones has become the focus, and his personal resume has been dug out.

Then everyone discovered that Paul Field-Jones did have the qualifications to become a "star". At least he was an academic star and a genius star.

In recent years, Paul Phil-Jones' experience is not much to say. He has been a professor at Xihai University and completed theoretical research one after another.

Before, I could say too much.

Paul Field-Jones' resume is astounding.

At the age of only 23, he received a PhD in mathematics from the California Institute of Technology.

At the age of 26, he already has three doctorate degrees in mathematics, physics and philosophy, as well as a master's degree in law.

It seems incredible that so many degrees are placed on one person's head.

At the age of 29, Paul Field-Jones was appointed as a full professor at the California Institute of Technology due to his in-depth research contributions to string theory.

This position is amazing.

Foreign universities also have positions similar to 'establishment'. 'Full professor' is also called 'tenured professor', which is a position similar to establishment. Unless something unexpected happens, he will be hired for life.

However, it is not easy to get a full professorship at a top prestigious university.

Every full professor at a top international university is a top international scholar in a separate field, and 29-year-old Paul Phil-Jones has made outstanding achievements in string theory research and is recognized as a representative of young scholars in string theory.

Considered to be the successor of Edward Witten.

As one of the top three figures in the field of string theory, Paul Field-Jones naturally had a bright future until the emergence of the annihilation theory.

Paul Field-Jones is "very discerning",

He gave up research in the direction of string theory, and under the title of "traitor" of string theory, quickly switched to the research of annihilation theory, and quickly achieved many results.

Then, now, I have won the Nobel Prize in Physics under the age of forty.

This resume can be described as legendary. "What a man of God!"

"Super genius, real super genius, Paul Phil-Jones' resume completely crushes the so-called genius...

"He will be Superman Paul from now on!"..."

Paul Phil-Jones has indeed received a lot of attention, but in the academic field, it is Wang Hao who still receives more attention.

At the Nobel Prize Ceremony, Wang Hao's performance was very formal, but when he answered the host's questions later, he talked about his recent research, which attracted the attention of scholars.

Extraordinary phenomenon theory!

A new theory within the scope of annihilation theory.

Although Wang Hao only used a few simple sentences to explain, his explanation talked about the problems in the manufacturing of first-order iron raw materials and the analysis of the problems.

In this way, the theory of extraordinary phenomena was developed.

He also expressed the hope that more scientists would participate in research in order to verify the theory, which naturally attracted the attention of many scholars.

Everyone's attention is focused on the next issue of "Annihilation Physics and Theory".

soon.

"Annihilation Physics and Theory" was officially released. Many scholars checked it out immediately and learned about the theory of extraordinary phenomena.

The research basis of the theory of extraordinary phenomena is experimental discovery.

During the manufacturing process of first-order iron raw materials, experiments found that pure iron is within the range of a strong annihilation force field. No matter how long it is left, the proportion of iron elements that undergo electronic transitions inside will not increase.

This discovery may not sound like much, but it is indeed extraordinary if you think about it deeply.

Because it can't be explained.

If it were a normal chemical reaction, such as charcoal burning, given enough time, all the materials would be burned.

The electronic transition of elements is a brand-new phenomenon that is difficult to attribute simply to physical, chemical changes, or nuclear reactions.

But the phenomenon itself is just the effect of the strong annihilation force field and the elements. According to normal logic, given enough time, all elements should undergo electronic transitions.

This is where the problem lies.

Based on this analysis, we have the "Special Phenomenon Theory". The core of the theory is the difference between the first-order iron element created by the strong annihilation force field and the first-order iron element that is constantly changing with the changes in the universe.

The different manifestations may be related to special phenomena.

In addition, the special phenomenon is also the reason why the iron element undergoes an electron transition and is upgraded to first-order iron under the action of a strong annihilation force field.

The two questions are related.

After understanding the theory of extraordinary phenomena, many scholars became very interested in it. Those who had the conditions began to study first-order iron, hoping to find answers from the study of first-order iron.

They all know -

The solution to this problem may lead to a Nobel Prize in Physics.

Some physicists won the Nobel Prize in Physics. Luck was a very important factor. Occasionally, they made an experimental discovery that verified a certain theory, and they won the award.

Of course, luck is also part of success. At the same time.

Some organizations have realized a problem from the new results: "The selling price of primary iron is so high because the raw material content is fixed."

Before, he thought it might be because the content increased slowly, and the difficulty in manufacturing it was naturally due to maintaining a strong annihilation force field.

Only now do we know that it is not that the content increases slowly, but that it does not increase at all.

There is an essential difference between the two.

Many scholars have also discussed, "If we can discover special phenomena, we may find a new direction for annihilation theory research."

"That's not just the annihilation theory, the upgraded elements

Research, annihilation physics, and electromagnetic force are all related..."

"Probably the most important thing is electromagnetism."

"The essence of electron transition is that the electron layer jumps to the inner circle, and the atomic nucleus must have undergone some changes, otherwise it will not reach equilibrium with the outer circle...".

"This balance is related to the conventional annihilation field environment."

"Perhaps we can change our thinking. For example, we can study whether first-order iron elements will change when placed in an antigravity field..." Academic discussions have provided many ideas.

Including radiation research, magnetic field research, anti-gravity field research, and some people even proposed special nuclear tests.

At the same time, many scholars also sent Wang Hao emails to inquire, wanting to know his ideas for solving problems.

Wang Hao received a lot of emails.

He looked at the content of each inquiry and couldn't help but shook his head. Later, he simply posted a message on Weibo, "I received too many emails. I'm sorry that I can't reply to them all."

"Many of the emails are asking about 'paranormal phenomena'. In fact, I can't find the direction yet."

"I and others have studied it carefully, but we have no idea how to conduct experiments to achieve development."

"So, on this issue, I don't want to express an opinion. If you listen to my opinion, it may be wrong."

Some scholars saw the news posted by Wang Hao and felt that it made sense.

If Wang Hao knew what direction to pursue his research, he would have asked his research team to conduct experiments and would not have made the theory public at all early.

If you want to achieve results on the issue of special phenomena, you need not only thinking, but also a lot of luck.
To be continued...