Li Mu, who has been immersed in his own research these days, has not paid attention to what is happening in the outside world, so he really did not expect that the guy who claimed to solve the principle of room temperature superconductivity actually came up with something that could make George Parisi Can't tell the difference between real and fake results.
After all, if George Parisi can't see the problems in this theory, then it means that there is indeed something in what Wilbur came up with.
Moreover, according to what George Parisi said, the other party actually thought of incorporating the dimensional force, which had to surprise Li Mu.
The other party can actually think of using dimensional force to deal with it?
Li Mu had to be surprised by this.
After all, he could only think of using dimensional force for processing based on the detailed technical explanation in his mind. How did Wilbur think of it?
Also, can we really come up with the principle of room-temperature superconductivity by deriving it based on dimensional forces?
He was filled with doubts.
After thinking for a while, based on his research during this period, he made some deductions in an instant, wondering if he had missed something that prevented him from discovering this possible direction?
Of course, his delay in responding also made George Parisi on the other end of the phone confused.
"Hey, Lee? What are you thinking about?"
Li Mu came to his senses and then said: "Oh, sorry, I was just thinking about what you said. I haven't read his paper yet. I'm going to take a look now... Is it on arxiv? "
"Yes." George Parisi said, "Go and take a look. Now in the physics community, those who study condensed matter are probably already discussing it."
"Although I can't point out any problems with his mathematics for the time being, the mathematical methods he used are so simple that I have to have doubts." I
"The mathematical method is simple...?"
Parisi's words made Li Mu think again. The mathematical methods he used in the previous calculation process were not simple at all, and were even a bit complicated. Otherwise, he would not have spent so much time. .
If the principle of room-temperature superconductivity can be found using a simple method, then there is no reason why he cannot discover it - for him, the simpler the method, the easier it is for him to find it.
After thinking for a moment, he came back to his senses and said, "I know, I'm going to take a look now."
"Okay, then I'll wait for your results."
After hanging up the phone, Li Mu said no more, went directly to arxiv and found the paper.
The author column only contained Wilbur's name, which made Li Mu wonder. Didn't Wilbur mean his team?
Could it be that the rest of his team are students?
So when I invited him to join the team, I was really fooling him...
Shaking his head, he looked at the time this paper was published, which was this morning. Of course, considering the review time of arxiv, this paper was probably submitted yesterday.
"They're pretty fast."
They had just exchanged laboratories a week ago, and now they had produced the paper in less than a week. This made Li Mu have to wonder how Wilbur's team was able to complete the experiment in just a few days. and the thesis are all finished.
With such doubts, he downloaded the paper.
At first glance, good guy, there are only a dozen pages of content.
No wonder they were able to produce the paper in such a short period of just a few days. The paper of more than ten pages was almost half-baked.
At this time, he almost understood why George Parisi said that the mathematical method used here was very simple.
After all, it can be explained in a dozen pages, and it’s room temperature superconductivity...
Li Mu thought about the stack of draft papers he had sorted out...
Well, he started to let go of expectations.
Shaking his head, he stopped talking nonsense and started reading from the beginning.
The first thing you see is the abstract.
In the abstract, the core idea of their proof is clearly given, which is to add dimensional force to it for processing.
After reading this summary, Li Mu couldn't help but nodded in agreement.
In any case, the summary of the paper expounding the significance of dimensional forces in superconductivity was enough to impress him. At least to some extent, Wilbur did discover the significance of dimensional forces in superconductivity.
Of course, just reading the abstract is obviously not enough. The following text content and the argumentation process are the key.
Li Muan looked down quietly.
At first, he had no expression, but as he continued to look down, his brows gradually wrinkled.
Of course, he did not stop browsing and continued reading.
He didn't close his eyes until he had read almost ten pages.
The reason why he stopped was because he had seen the problem.
However, he was able to discover this problem not because there was any problem with Wilbur's mathematical argumentation process. To a certain extent, there was no problem with his mathematical process.
Of course, there is no problem with this. It is based on the current conditions, which makes his process problem-free.
And if you add another condition that he discovered this week, there will be problems with Wilbur's process.
Wilbur's result was a coincidence that occurred during mathematical processing based on the lack of prerequisites.
Just like the analytic continuation method in mathematics, analytic continuation is to expand the domain of the original function. It is reasonable in the extended domain, but it is unreasonable for the original function. After all, it is already Beyond the scope of the definition domain.
In the world of physics, such things have always existed. The most famous one is the debate over whether light is a wave or a particle.
After Newton once proposed that light is a particle, because of his status, no one dared to challenge the particle theory of light. However, with the continuous development of science, some conditions gradually became clear, so scientists discovered the wave-particle duality. .
Another example is the famous law of non-conservation of parity. In the past, the law of conservation of parity was a truth believed in by the physics community. However, as some conditions became clear, non-conservation of parity was born.
And now, the same is true for Wilber's theory of room temperature superconductivity.
But his luck was not very good. On the first day after he was born, he was overthrown by Li Mu.
"It's no wonder that the mathematical methods and demonstration process he used are so simple."
Li Mu shook his head.
However, he knew the problem because he knew where the key issue was missing.
"According to my analysis in the past few days, the dimensional force plays an indirect role in the formation of electron pairs. By indirectly stimulating the electromagnetic force, the electron pairs are locked."
"In Wilber's argument, the role of dimensional force exceeds its own boundaries and changes from an 'indirect' influence to a 'direct' influence, which is inconsistent with it."
At this point, Wilber's principle of room temperature superconductivity has been falsified by him.
Of course, it is not enough for him to be falsified. At least the entire academic community needs to know. This is also the obligation of any scholar.
While having faith in the truth, you must always maintain a questioning attitude, and immediately point out all fallacies that can be determined.
"Well...if you want to falsify his conclusion, there are two ways now."
A method will take some time, but it will not affect his current plan. This method is that he will continue to study according to his original plan, complete his current topic, and then publish the paper, and the academic community will naturally be able to distinguish it. Draw out the problems in Wilbur's paper.
The other method only takes one day. He can now directly back-end based on the use of dimensional forces in Wilbur's paper. After working backwards, he can easily find out the contradictions, and use this to make suggestions. The mathematical community reveals the problems.
So, which one should you choose?
After Li Mu thought for a moment, he decided to choose the first method and continue to study his own.
Anyway, this probably won't take long, probably in more than a week.
What's more, maybe he won't have to come forward in person by then.
He briefly simulated the reverse derivation process of the second method in his mind. Although it was indeed a bit difficult and required a very in-depth study of dimensional forces, in the current academic world, scholars who have done in-depth research on dimensional forces, There are still some, so maybe someone else will reveal the problem in a week.
So he shook his head, stopped thinking about it, closed the web page in front of him, and prepared to continue his previous work.
Of course, considering that George Parisi came to ask him, he also picked up his phone and sent a message to George Parisi: [Don’t pay too much attention, he has problems with the use of dimensional force. of. 】
Then he said no more, looked at the draft paper on his desk again, and continued with the final derivation.
According to the requirements of the task, he needs to complete the explanation of the superconducting theory. Since it is [superconducting theory], then naturally it is not just what he has discovered now, but it should also include the entire structure of superconducting, as well as the most fundamental Mechanisms.
Just like that, the office became quiet again.
However, unlike his current calmness, the outside world had long since become unstable because of Wilbur's thesis.
Perhaps, for the world, the materials of room temperature superconductors are the most important, but for the physics community, the importance of principles is even more important. After all, what physics wants to figure out has always been the world. The principle behind how it works.
As a result, Wilbur's paper on the principle of room-temperature superconductivity, which he named Wilbur's theory, caused more and more shock.
…
"Mr. Wilbur, what does the principle of normal temperature superconductivity mean to our world?"
The door of the Condensed Matter Physics Laboratory was crowded with reporters from various places. The UK lacked everything but two things, one was gay and the other was media.
Therefore, after the matter about the principle of room-temperature superconductivity caused a shock in the scientific community, it quickly reached the ears of these media.
At this moment, Wilbur was naturally smiling. Facing the reporter's question, he smiled and said: "I think everyone should know the role of normal temperature superconductors. After all, this year, the Koreans made LKD The -99 room temperature superconductor material also attracted a lot of attention at that time."
"Although it is a pity that LKD-99 is not a true room-temperature superconductor, I believe it has also made many people realize what a room-temperature superconductor is and what role it has for humans, so I will not go into details."
"As for the principle of room-temperature superconductivity, what I want to say is that although it is not as helpful to mankind as room-temperature superconducting materials, as a theory, it is often very useful to the academic community. important."
"It can help us discover the deeper operating mechanisms of this world."
"Well... just like the theory of relativity, quantum mechanics, and dimensional force theory, studying the principles of superconductivity is as important to us as these subjects."
"This is even more true for the principle of room-temperature superconductivity. Perhaps it cannot help us synthesize room-temperature superconducting materials, but for physics, how to apply it is not particularly important. What is more important is to know why."
“In the last century, Bardeen, Cooper, and Schriever won the Nobel Prize in Physics for discovering the BCS theory. Of course, we all know that Bardeen won two Nobel Prizes in Physics. .”
"In addition, there is also a GL theory. The people who developed this theory are Günzburg and Landau, and these two are also Nobel Prize winners in physics."
"Then, let's talk about other people who are not in the theory of superconductivity, but have made important contributions in the research process of superconductors, such as the first person to discover superconductors, Heike Kamerlin Onnes, who also Won the Nobel Prize in Physics.”
"Then, Johannes and Karl also won the Nobel Prize in Physics for discovering high-temperature superconductors——"
"In short, by saying this, you should be able to understand the importance of research on superconductors in the world of physics, right?"
Listening to Wilbur's words, the reporters present keenly captured the key points.
It’s not that superconductivity is so important, but the Nobel Prize in Physics!
So, a reporter immediately asked: "So, Mr. Wilbur, are you likely to win the Nobel Prize in Physics for this achievement?"
Wilbur laughed suddenly and then said: "Of course, there is no physicist who does not want to win the Nobel Prize in Physics."
"If possible, I would also like to win a Nobel Prize."
"I believe you can also roughly understand."
"Of course, I have gained a little confidence in this matter. The principle of room-temperature superconductivity is undoubtedly a ticket to the Nobel Prize in Physics."
At this time, Wilbur was obviously the most high-spirited person in the world.
However, at this moment, a reporter asked: "But what if your theory is wrong?"
"Wrong?" Wilbur waved his hand with a smile: "Although it is possible, for now, the academic community has not found any problems in my argument."
"Of course, it will probably take a certain amount of time to confirm my argument. This is understandable. My theory uses the idea of dimensional force. This is a new direction in the field of superconducting research. In the past, there was no other scholars have tried this direction."
"But I believe that after a while, the academic community will fully accept it."
However, the reporter looked at the mobile phone in his hand and said slowly: "But... the 2021 Nobel Prize winner in physics, George Parisi, said on the Internet that there may be problems with your theory because of the dimensions Professor Li Mu, the founder of force theory, said that there are problems with your use of dimensional force."
"What?" Wilbur was stunned.
Li Mu, the founder of dimensional force theory, said that his use of dimensional force in the theory was wrong?
(End of chapter)
