This year's Nobel Prize ceremony was so exciting.

After the award ceremony, there was a lot of coverage by media reporters, and the Nobel Prize in Physics became a high-profile topic.

One of the most prominent is Paul Phil-Jones.

Paul Phil-Jones did what he said he would say, and he made everyone memorable in his acceptance speech, wearing a superman outfit and likening himself to Superman who came to Earth, while other scientists likened him to the Kryptonian, Superman's homeland.

The metaphor in this speech sublimated his behavior. In fact, science is very similar to his analogy, there are always very few people who can win international awards, and other scientists who do not win awards are worse than those who have won awards?

Not necessarily.

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, but they have not won international awards just because their individual contributions are not outstanding, or because they lack some luck.

They are the obscure Kryptonians.

Nobel laureates, either with little personal contribution, or with great luck, managed to come to Earth to be known to everyone and become the 'supermen' of the scientific community.

This award-winning speech has been widely reported by the media and has also been commented on by many public opinions.

Some dismissed it, arguing that Paul Phil-Jones's actions were sensationalism.

Some people who know Paul Phil-Jones just smile unconcernedly, because it's a lot like what Paul Phil-Jones can do. The vast majority of people have a positive opinion about it.

This is especially true in the mass sector.

Most people talk about it with relish, but they don't care about the formality of the Nobel Prize ceremony, but think that Paul Phil-Jones has a lot of character.

Think about it.....

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

That's definitely something that ordinary people can't do.

Although the academic community has mixed reviews about this, public opinion has a lot of praise for Paul Phil-Jones, and it has also given Paul Phil-Jones a large number of followers, or "fans."

Paul Phil-Jones was in the spotlight, and his resume was dug up.

Then everyone found out that Paul Phil-Jones does have the qualifications to become a 'star', at least an academic star and a genius star.

In recent years, there is nothing to say about Paul Phil-Jones's experience, he is a professor at Olympiad University, completing theoretical research one after another.

Before, there was so much that could be said.

Paul Phil-Jones' resume is quite impressive.

At the age of 23, he received his Ph.D. in mathematics from the California Institute of Technology.

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

It seems a little incredible to put so many degrees on one person's head.

At the age of 29, Paul Phil-Jones was appointed full professor at California Polytechnic University for his in-depth research on string theory.

The position is remarkable.

Foreign universities also have positions similar to "full professors", also known as "tenured professors", that is, positions similar to establishments, and if nothing else, they will be hired for life.

However, a full professor at a top university is not easy to get.

The full professor of every top international university is a top international scholar in a single field, and the 29-year-old Paul Phil-Jones, who has made outstanding achievements in the study of string theory, is recognized as a representative of young scholars in string theory, and is even considered to be the successor of Edward Witten.

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

Paul Phil-Jones is "very discerning",

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

And now, before the age of forty, he has won the Nobel Prize in Physics.

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

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

"He'll be Superman Paul from now on!" ....」

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

At the Nobel Prize ceremony, Wang Hao's performance was very formal, but when answering the host's questions later, he said that his recent research was still very attractive to scholars.

Theory of peculiar phenomena!

A new theory within the scope of the theory of annihilation.

Although Wang Hao only used a few simple sentences to make an expression, his expression talked about the problem of the manufacture of first-order iron raw materials and talked about the analysis of the problem.

Based on this, the theory of peculiar phenomena was studied.

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

Everyone's eyes are focused on the next issue of Annihilation Physics and Theory.

Soon.

"The Physics and Theory of Annihilation" was officially released, and many scholars checked it out for the first time and learned about the theory of special phenomena.

The theory of specific phenomena is based on experimental discoveries.

In the process of manufacturing first-order iron raw materials, experiments have found that pure iron is in the range of strong annihilation force, and no matter how long it is placed, the proportion of iron that undergoes electron migration will not increase.

This may not sound like a big deal, but it's really unusual when you think about it.

Because, unexplainable.

If it's like an ordinary chemical reaction, such as charcoal burning, as long as there is enough time, all the materials will be burned.

Elemental electron transition is a completely new phenomenon that is difficult to attribute to purely physical or chemical changes or nuclear reactions.

But the phenomenon itself is only the action of the strong annihilation force field and the elements, and logically speaking, given enough time, all the elements should undergo electron transition.

That's the problem.

Based on this analysis, the "Theory of Exceptional Phenomena" has been established. The core of the theory is that the first-order iron produced by the strong annihilation force field is different from the first-order iron produced by the continuous changes in the universe.

The manifestation of the difference may be related to the specific phenomenon.

In addition, the specific phenomenon is also the reason why the electron migration of iron is fixed under the action of the strong annihilation force field.

The two issues are linked.

After learning about the theory of special phenomena, many scholars are very interested in it, and those who have the conditions have begun to study first-order iron, hoping to find the answer from the study of first-order iron.

They are all well aware -

The solution of this problem could lead to a Nobel Prize in physics.

Some physicists win the Nobel Prize in Physics because luck is a very important factor, and they occasionally win an experimental discovery that verifies a certain theory.

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

Some organizations have realized a problem from the new results, "The reason why the price of first-order iron is so high is because the raw material content is fixed."

Before, he thought that it might be 'the slow rate of content increase', and the difficulty of manufacturing naturally lies in maintaining a strong annihilation force field.

Now I know that it is not that the content increases slowly, but that it does not increase at all.

There is a fundamental difference between the two.

Many scholars also discussed, "If we can find a special phenomenon, we may find a new direction for the study of annihilation theory."

"It's not just the Annihilation Theory, the Ascending Element

The study of annihilation physics, including electromagnetic forces, is all related......

"The most important thing is probably the electromagnetic force."

"The essence of the electron transition is that the electron shell jumps to the inner circle, in which the nucleus must have undergone some kind of change, otherwise it will not reach equilibrium with the outer .....".

"This balance has to do with a normal annihilation field environment."

"Maybe we can think differently, for example, if we study the first-order iron element and place it in an anti-gravity field, will there be any changes.... "The academic discussion has provided a lot of ideas.

These include radiation studies, magnetic field studies, anti-gravity field studies, and even special nuclear tests have been proposed.

At the same time, many scholars also sent emails to Wang Hao to ask for his ideas to solve the problem.

Wang Hao received a lot of emails.

He looked at the contents of the inquiries one by one, and couldn't help but shake his head helplessly, and then simply posted a message on the meager side, "There are too many emails I received, I'm sorry I can't reply to them one by one."

"A lot of the emails were about 'peculiar phenomena,' and in fact, I couldn't find a direction for the time being."

"I've studied it with others, and I don't know how to experiment in order to develop."

"So, I don't want to have an opinion on this issue. If you listen to me, it's probably wrong."

Some scholars saw Wang Hao's message and felt that what he said was very reasonable.

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

If you want to be successful on the issue of peculiar phenomena, you need not only to think, but also to have a lot of luck.

If you are very lucky, you can make a new discovery in an experiment, and you can link it to the problem of peculiar phenomena.

Bad luck ....

No matter how much you think about it and do a lot of experiments, you may not find anything.

--.---

When the international physics community discusses the problem of specific phenomena,

Ameriken's top officials have gathered a number of top academics and are having a very important meeting.

One of Ameriken's top figures, Duruk-Bent, was giving a presentation at the conference, "The annihilation force field is not only the most cutting-edge scientific and technological experiment, after the discovery of the phenomenon of electron migration, that is, the creation of a new form of first-order iron, it has become the most important research in the world that can determine the dominance of undiscovered technology."

"The mass production of first-order iron also dominates the production and manufacturing of new materials, and they have also discovered first-order lithium, and I believe that there will definitely be more discoveries in the future."

"It can now be seen that the research of the annihilation force field has a very significant impact on scientific research, military, economy and other fields, and mastering the highest-end annihilation force field can gain multi-directional dominance." "We are already far behind in this new technology.....

"I think we need to pay attention to ......"

After Duruk-Bent had made his statement, the meeting voted by a show of hands, almost unanimously in favor of the study of the annihilation field.

Everyone can see the importance of the Annihilation Force Field technology. Both first-order iron and first-order lithium are very important.

Steel is a material that can be seen everywhere in life, and first-order iron can effectively improve the physical properties of steel, and it is widely used in military materials, aerospace and other fields.

In the field of superconducting materials, iron-based superconductivity plays a very important role, and first-order iron has been proven to be effective in improving the critical problem of superconducting materials. There are many applications in other fields as well.

The first-order lithium, which has just released its results, has taken a heavy toll on the stock market

Magnetized lithium compounds can directly have a cross-dimensional impact on the lithium battery material market.

Wait a minute.

Next to stand up is Jael Lockyer, an internationally renowned expert in quantum physics and director of the Fermil Magnetization Accelerator Laboratory. Jerle Lockyer has always attached great importance to the study of the annihilation field, and he has met with Empoli Cooper in person, and then he has gone to the International Annihilation

The Physiognomy Organization has done an investigation.

Now Jer-Lockyer has a very detailed report in his hand, and he took the report and said seriously, "We can get all the technical information of the International Organization for the Theory of Annihilation, but the strength of the annihilation force field that the latest demonstration of the annihilation force field generation equipment can support is only estimated to be about 5 times."

"However, the annihilation force field created by the Anti-Gravity Properties Research Center has reached 8 times stronger or more."

"This gap is about three or four generations."

"We have carefully discussed and believe that there are three main possible gaps in field force technology, the first point is that the Anti-Gravity Properties Research Center has adopted a standardized technology research and development method."

"They put a high-pressure mixture into sections of pipes that can be connected, which are of different sizes and shapes, but can be connected and transformed at will."

"In this way, it's like a Lego patchwork, which can be formed into many forms, and it can be continuously modified to study the Annihilation Force Field technology."

"The second is material research and development."

"The Anti-Gravity Research Center is supported by Superconducting Materials Industries, which has the most advanced superconducting materials technology and is now producing iron-based superconducting materials with critical temperatures exceeding 180 K."

"They may be constantly researching high-pressure hybrid materials, and they will continue to replace them with better materials to support the increasing strength of the annihilation field, which may also be the effect of first-order iron, or some kind of magnetizing material." "Finally, there is the possibility of new technologies."

"Relying on the conventional way of manufacturing equipment, the strength of the annihilation force field cannot be continuously increased, but new equipment needs to be manufactured, but their research and development speed is obviously far faster than the equipment manufacturing speed."

"Of the above three points, we prefer the first two."

"But no matter what it is, it takes a lot of investment.....

After Jer-Lockyer's speech, the meeting was engulfed in heated discussions.

Even for Amriken's most powerful figures, the study of the Annihilation Force Field must be cautious and cautious.

Because, there is too much investment.

If it is only a few billion dollars of research and development, the decision can be made directly, but as soon as scholars open their mouths, tens of billions of dollars or hundreds of billions of dollars are involved, it will involve large-scale proposals.

Even if a decision is made, it is still necessary to consider where to pay for it and then convince the House of Representatives.

However, the annihilation field study is too attractive.

The first-order iron alone represents huge scientific and technological and economic benefits, not to mention other research, and there is no problem in passing the 100 billion dollar R&D proposal.

Next, the meeting discussed how to support, how to do research, and where to do research.

Ultimately.

Duruk-Bent summarized the decisions made at the meeting, and then drafted a new major proposal, the Lake Groom Plan.