Westhai University, Mason Mathematical Science Laboratory, Director's Office.

Wang Hao and Paul Phil-Jones continued to think about the math content on the whiteboard together, they summarized the research, and then substituted the values for calculation.

Paul Phil-Jones took two steps back, looked at the whiteboard as a whole, and then emphatically said, "It's perfect, but it must be wrong."

He paused for a moment and asked Wang Hao, "Aren't you worried?"

"Worried about what?" Wang Hao looked at the content on the whiteboard seriously, and asked rhetorically without moving.

Paul Phil-Jones said, "The analysis and calculation process is very rigorous, there are no problems, but we can get definite results right away. If the conclusion is wrong, you should know what it represents, right?"

Wang Hao turned his head and said, "That means that the foundation is wrong, which means that the annihilation power is not higher than the three microscopic force dimensions."

"Aren't you worried?" Paul Phil-Jones asked curiously again.

Wang Hao shook his head and said very simply, "Of course not."

"Why?"

"Because I have faith!"

Paul Phil-Jones opened his mouth and didn't say anything for a long time, and he found that he was not as good as Wang Hao, that is, his confidence in theory.

If the study of string theory can go to the step of related experiments, he will definitely look forward to verifying it, but at the same time, he will be very nervous, worried that the verification will lead to wrong conclusions.

Wang Hao was calm, and he didn't seem to see anything worried.

This shows that Wang Hao is very confident in his research.

Paul Phil-Jones did not understand this kind of confidence, and he could only think that Wang Hao's confidence in the theory of annihilation was greater than his confidence in the theory of strings.

In fact, he didn't care about this, but he felt very conflicted inside, because he found that he was a little skeptical of string theory.

Nor can it be said that there is complete skepticism of string theory, but rather of some of its research.

He completed this research with Wang Hao, and the beauty of the mathematical process seems to go further than the study of string theory.

Mathematics is the pursuit of beauty.

In addition, their research can further analyze microscopic physics, and if they continue to study, it is likely that a unified theory will be completed.

String theory, too, pursues the unification of theories, but many of the analyses involve complex understandings, such as the analytic of dimensions in M-theory.

The analysis of these parts is difficult to be recognized by ordinary people, and even by peers.

If it involves the fourth dimension, it is relatively good, but if it involves a higher dimension, the mathematics will become very complicated, and the more you study, the more problems you will encounter.

Now the theoretical explanation given by Wang Hao is to say that space squeezing is the source of all forces, and then it is obviously more acceptable to link it with the existing quantum physical system, because the theory does not involve obscure high dimensions, and it does not conflict with the existing physical system.

In addition, if we continue to think deeply and understand black holes, antimatter, dark matter, etc. in terms of the source and impact of annihilation, we can really expand the study without "forced" explanations like string theory.

Of course, there is still a lot of research to be done in the process, and there are many problems to be solved.

The process of perfecting a new theory is very, very complex.

Paul Phil-Jones continued to think, and couldn't help but doubt string theory, "Is string theory wrong? Or is it partly wrong?"

Of course, he won't say it, just continue to think in silence.

Wang Hao returned to his seat and began to make the final calculations.

When Paul Phil-Jones came back to his senses and joined one of them to calculate together, two top international mathematicians, to calculate together, the speed is naturally needless to say.

It only took them one day to figure out the results.

「183GeV-187GeV。」

Hao

"There is an undiscovered particle within this energy range."

"My results are the same······

Paul Phil-Jones said with a complicated look in his eyes, and he didn't know how to deal with his conflicting feelings.

On the one hand, he hopes that the research is wrong, which means that part of the mathematical content of string theory will not be denied; On the other hand, he certainly wants the research he is involved in is correct, and he enjoys the research work.

The former is to affirm the past and deny the present.

The latter, which negates the past, affirms the present.

How to choose this?

Science is certainly not a multiple-choice question.

Wang Hao smiled, "I'm more sure of the correctness of the conclusion now."

Paul Phil-Jones looked up.

Wang Hao sent him the information, "Let's see, the report of the last particle collision test experiment.

CERN's particle collision experiments will publish a very detailed research report every time, and only some big discoveries can be seen in the news, and some small discoveries or points that need attention will be published in the detailed report of the experiment.

The detailed report is also open to the public, and can be viewed by any partner organization after logging in.

However, the detailed experiment report is very complicated, and it is obvious that only professionals will look at it, and ordinary people will definitely not care about it.

Paul Phil-Jones looked at the content of the data and quickly found one of the most important ones - there are numerical signal fluctuations in the range of 178-195 GeV.

This is a very small experimental conclusion.

In the detailed report experiment, there are more than a dozen similar numerical signal fluctuation anomalies, which are most likely caused by errors, and even the impact of the pipe being knocked during the experiment may be higher than the detected signal fluctuation.

Therefore, similar conclusions in the detailed report of the experiment will not attract attention at all, but the results of their calculations are not the same.

The two can correspond to each other.

Paul Phil-Jones took a deep breath, "So our research is correct?"

"I've always been sure."

Wang Hao smiled, "It's just that it's hard to say whether it can be verified, the value fluctuates abnormally, and it only makes sense to expand it to the trust value."

"But at least our research can be published."

They then began to summarize the research together, but since there was no positive study of the annihilation theory, there was only some basis for definitions, and the published content was related to decay descriptions and calculations.

It took them three days to complete the decay description and the summary of the calculations.

Wang Hao thought about it for a while, and then submitted his paper to "The Universe and the Microcosm".

"The Universe and the Microcosm" is a professional journal of quantum physics, and the top five most important ones in physics are the cooperation with CERN.

Many of the results of particle collision experiments will be published in the Journal of Universe and Microcosm.

Their research is based on a new analysis of the decay problem, combined with the calculations made by the Yang-Mills equation, and also came to the conclusion that there is a completely new particle in the specific energy interval, which is suitable for the book "The Universe and the Microscopic World".

······

The journal Cosmos and Microcosm is headquartered in Hamburg, Germany.

Dudek Müller is a professional review editor at journals who has worked for more than 20 years.

The first thing Dudek Müller does when he arrives at the office every morning is to glance at the submissions he receives, identify those that interest him, and put them in a special folder.

That's the morning's work.

Those who are not interested in the submissions will be placed in a separate folder and read them slowly.

Dudek-Müller checked the contents of his mailbox and immediately noticed a submission titled "Decay Analysis and Undiscovered Particles."

"Analytic decay?"

"New particles undiscovered?"

Dudek-Müller was so amused that he subconsciously threw the manuscript in the trash, not even bothering to look at it.

The title of this submission is simply too big.

I can understand a little bit about the decay, but what does it mean to talk about the discovery of new particles?

Through the study of the Yang-Mills equation, new particles have been predicted, including Higgs particles, neutrinos, etc.

By analyzing the decay problem, it sounds funny to predict new particles that have not been discovered.

Most of the similar studies can be classified as garbage, and you don't need to look at it much to know it, and it is a waste of time to read it.

Dudek Müller put the submission in the trash, replied to an email that said "Submission failed", and was about to close the page when he suddenly noticed the name of the contributor.

ang-Hao?

"Looks familiar······

Dudek-Müller frowned, then his eyes widened suddenly, and he immediately retrieved the manuscript from the bin.

After confirming that the name on it was Wang Hao and that the other party marked it as "Xihai University", Dudek Müller was soaked in cold sweat.

Hao!

Fields Laureate, creator of the Annihilation Theory, recognized as the world's No. 1 mathematician, whose submission was rejected by himself?

Dudek-Muller quickly withdrew the "submission failed" email, and even spilled the coffee at hand halfway, and only exhaled a long breath after confirming the withdrawal.

Editor-in-chief Resal heard the movement, glanced up, and immediately walked over and said, "Dudek, be careful, don't get the keyboard wet."

"Good, good."

Dudek-Mueller nodded continuously, immediately grabbed Ressar, pointed to the computer screen, and said, "Look at this! Wang Hao, his contribution!"

Resal suddenly looked over, "Is it Wang Hao's contribution? Open it and take a look."

Dudek-Müller opened the file, and together they read the contents of the introduction, and they couldn't help but be extremely surprised.

"Decay Analysis and Undiscovered Particles" is about a new way to analyze decay, which introduces the role of annihilation, and there is only one sentence in the introduction: "The dimension of annihilation is higher".

The paper concludes that there are new particles within the range of fixed energy intervals.

This kind of research is just too big!

Dudek-Mill continued to open the content of the paper, which began with a large number of mathematical analyses, and in the later pages of the paper, there was a part of the calculation, which seemed to be related to the Yang Mills equation, and finally calculated the result.

After looking at the whole paper, Dudek-Müller said with certainty, "Mr. Ressar, I can't read this paper, and you will review it?"

"I don't understand it either." Resar is even more certain than Dudek-Müller, "It's too complicated, it starts with mathematical analysis, and it seems to introduce new definitions, it's too specialized."

"You can't read it either?"

"It's hard to understand." Ressar pointed to the author of the paper and said, "And you didn't notice? Not an author, and Paul Phil-Jones."

"Who is he?"

"A very famous string theorist, a professor at California Polytechnic University." Ressar said.

Dudek-Müller nodded, he naturally understood what Resar meant, and mathematical analysis would become more complicated when it came to string theory, and he pondered, "Why don't you leave it to Cooper?" He has studied string theory and has reviewed a number of professional papers."

Ressar shook her head, "No need."

He said as he operated the computer and replied directly to the email that "passed the first trial".

Dudek-Müller asked, "No first trial? Then go straight to peer review, or you can do it."

Then he noticed that Resal had replied to a new email, saying that he had passed the "second review" and was sure to publish it in the next issue.

Dudek-Müller was confused by this operation, and he opened his mouth wide in surprise and asked, "Don't you need a judge?" Directly passed, and will it be published next week?"

Ressar replied to the email, stood up and smiled, "Of course not, you can publish it directly, this is Wang Hao's contribution."

"Huh?"

Dudek and Müller were a little puzzled, "What if it's wrong?" Resal smiled, "I hope it's wrong, he's Wang Hao, so what's wrong? He only found one platform to publish on, and it just so happened that we were lucky."

"Dudek, you have been working for twenty years, but you have to understand that when faced with a scholar like Wang Hao, it is not us who makes the choice, but him who makes the choice."

"The last time his research was published in the journal Science, Science didn't review it, understand?"

"Science doesn't review manuscripts?" Dudek Müller was surprised.

"They don't review Wang Hao's submission, and they also publish it directly."

Rysar laughed.

Dudek-Müller is just an ordinary editor, of course, he doesn't know some news in the industry, the last time Wang Hao was ready to submit his manuscript to Nature, and he sent an email to inquire about it, knowing that it would be reviewed, so he changed to Science magazine.

Science promised not to review the manuscript and published it in the next issue.

Now the international mathematics, physics community, academic journals and magazines have reached a consensus that Wang Hao's submission does not need to be reviewed at all, and it will be published directly.

Otherwise, wouldn't it be a big loss to miss Wang Hao's submission?

The research is obviously so important that they don't care if it's correct or not, they just publish it.

Even if it turns out to be wrong in the end, they won't lose anything, because it was Wang Hao's contribution, and everyone can understand it.

Wang Hao's personal influence has long exceeded that of a professional academic journal.

After returning to the office, Ressar happily brewed a cup of coffee and sent an email to Wang Hao, explaining that his submission had been approved and that he had directly "accelerated" the process, and invited him to serve as a reviewer.

······

The next day, Wang Hao saw the email, and it only took one day to pass the review, and he was still very satisfied, "The Universe and the Microcosm, this magazine is good and professional.

At the same time, a personal email from Ressar was also noted.

He thought for a moment and replied, "I can help you look at the math content, and forget the rest."

When he thought that the paper had passed the review and would be published in the next issue, he suddenly thought of Didier-Mayor.

Mayor is an old friend.

Mayor wanted to be able to test the theory of annihilation, and he came to interview him in person.

Now that there is an opportunity for experimental verification, Wang Hao simply sent an email to Mayor, explaining that there are new particles in the "183GeV-187GeV" interval.

"Didier, your experimental team can look for new particles in this area, and even if they can't find a definite signal, they will find something."

One sentence is enough.

At the same time.

Didier-Maillol had already reached the end of work, and he was about to close the computer and leave, when he noticed the new email reminder, and after clicking on it, he saw Wang Hao's message.

「183GeV-187GeV?」

"New particles?"

His face was filled with surprise as he shouted out the door, "Don't rush back yet, guys!"

"Come here, I'll explain first, I have work to do tomorrow!"

······

The new semester is here.

There are a lot of flowers at the main entrance of Xihai University, and there are red banners, which seem to welcome the arrival of new students at a glance, but a closer look reveals that it is not.

I saw that the banner read, "Welcome Mr. Kachel-Birkar, Fields Laureate, to the Center for Mathematics Research at Shohai University!"

Bilkar has arrived.

When a Fields laureate joins the university, the university has prepared a grand welcome ceremony, unlike ordinary scholars.

Bilkar officially came to school on the first day, and he walked forward with Wang Hao, followed by many people, and the principal Yan Fu was one of them. Wang Hao took Bill Carl to visit Xihai University, which is actually a process.

Others accompanied him.

Bill Carr joins Seohai University, but instead of the Mason Mathematics Science Lab, but the soon-to-be-built Mathematics Center, he will worry about the deputy director of the Mathematics Center.

On this day, Bilkar seemed to be in good spirits, and he felt very cordial when he saw Wang Hao, and talked about research problems with Wang Hao while walking.

They talked about the study of algebraic geometry, and they talked about the study of semi-topology.

When faced with these professional problems, the others couldn't interject at all, so they could only listen in frustration, but everyone was very welcoming to Bilkar's arrival.

The arrival of Bilkar has directly promoted the faculty of Xihai University to the first place in China in the direction of algebraic geometry.

They have already introduced more than 20 algebraic geometry scholars, and then there are Fields winners in the field of algebraic geometry, and the faculty is naturally not comparable to other universities, even Capital University.

Algebraic geometry has become a very hot direction in mathematics.

Because of the research on semi-topology and superconductivity, the media has carried a lot of coverage, and the common people know that algebraic geometry and superconductivity research are directly related.

Many undergraduate and graduate students in mathematics know that they do not worry about work in the direction of algebraic geometry, and can directly engage in the work in the direction of research, so they naturally want to develop in the direction of algebraic geometry.

Xihai University has a very big advantage in the competition for talents in the direction of algebraic geometry.

The arrival of Bill Karl has allowed the advantages to continue to expand and attract more talents.

They walked all the way.

Bilkar also asked, "Wang Hao, do you have any research lately?"

"There's a small result." Wang Hao's sure answer immediately attracted the attention of the surroundings.

"Oh?"

Bill Carr became interested, "What field? Is it superconducting?"

Wang Hao shook his head, "Annihilation theory, to be precise, is quantum physics research, and the paper has been submitted, "The Universe and the Microcosm."

At this time, Zhu Jianrong couldn't help but ask, "Wang Hao, are you sure it's a small achievement?"

He knows Wang Hao too well.

Sometimes, the small results that Wang Hao talks about may be great achievements, because he always says that his achievements are small achievements.

Presumably modesty?

Wang Hao explained, "It is related to the theory of annihilation, which is the analysis of decay."

"Theoretical physics!" Bill Carlton reacted. Wang Hao nodded.

Zhu Jianrong nodded as he listened, thinking about the research of theoretical physics, maybe it was indeed a small achievement, right?

Complex mathematical structures, no matter how much research is still only theoretical, can not be linked to experimental verification, it is difficult to say that it is a "big achievement".

Of course, it's just relative to Wang Hao.

How is it also a paper published in the top journal, but it is definitely a big achievement if it is replaced by someone else.

.······

Tuesday.

The Universe and Microcosm published a new issue, which did not attract much attention at first.

This is mainly because the research related to quantum physics seems to have come to a standstill, and since the discovery of the Higgs particle, there have been no major achievements in quantum physics.

Even in the quantum physics industry, some physicists are waiting for the second test of particle collisions next month, and they subconsciously feel that nothing new will happen before the experiment.

So there are not many scholars to check the first time - WAP.. COM- to view