People in the scientific community want to know these questions.

Of course, before that, the correctness of the XSC theory is still something that needs to be confirmed.

Although George Parisi's comments are sufficient for the physics community, for people in other fields, some real experimental results are still needed.

Therefore, in the next period of time, quite a few laboratories have verified the XSC theory.

It didn't take long for major laboratories to announce their verification results.

Lawrence Berkeley Laboratory: [We are pleased to announce that the XSC theory proposed by Professor Xiao Yi has been successfully verified! Through a series of high-precision angle-resolved photoelectron spectroscopy experiments, we observed the reconstruction of the Fermi surface and changes in the density of states consistent with the model predictions. This result further supports Professor Xiao Yi's theoretical framework. In the future, we also look forward to more experiments to delve into the details of this mechanism and promote the research and application of high-temperature superconducting materials. 】

CERN: [After in-depth research on Professor Xiao Yi’s XSC theory, the CERN laboratory successfully observed the behavioral changes of spin density waves under different temperature conditions through high-energy neutron scattering experiments. This is completely consistent with the prediction of the XSC theoretical model and verifies the coexistence of magnetism and superconductivity. We believe that this discovery will have a profound impact on the theoretical research and practical applications of high-temperature superconducting materials. 】

MIT Laboratory: [Our research team successfully verified Professor Xiao Yi’s XSC theory by comprehensively using X-ray diffraction and angle-resolved photoelectron spectroscopy technology. Experimental data show that the existence and interaction of electron density waves and spin density waves are fully consistent with the model predictions. This achievement provides a new theoretical basis for the design of high-temperature superconducting materials and points out the direction for future research. 】

Los Alamos Laboratory: […]

With nearly 20 laboratory verification results announced, and all results are completely consistent - the XSC theory is correct.

Immediately, the entire scientific community became excited again.

If the Yang-Mills existence and mass gap problems proved by Xiao Yi in July were just a celebration for the mathematics and physics circles, then the high-temperature superconducting mechanism was a surprise for the entire scientific community.

After all, the former is only a theoretical success. Even if it can be applied in practice, I don’t know how many years it will take.

The latter can be directly applied to practice.

After all, this world is not the ideal homeland of mathematicians. Only theories that can be applied have real value.

Therefore, the XSC theory directly made the headlines of almost all media, and was even more popular than the original X-particle.

George Parisi, who was a reviewer of Xiao Yi's paper, said during the interview: "As I said in my comment, the XSC theory is a theory of the future, and Xiao Yi regarded this as what should have been The theory of the future has been brought to us.”

"So we all want to thank Xiao Yi."

"Perhaps, we can even compare Xiao Yi to Prometheus of condensed matter physics - of course, he does not have to suffer like Prometheus, but is respected by each of us."

"Of course, the most important point is that Xiao Yi pointed out the next research direction at the end of his paper."

"According to the description in Xiao Yi's paper, there must be some connection between the XSC theory and the BCS theory, which can help us achieve the unification of superconductivity. We all agree with this statement."

"Since it is a unified phenomenon, there will always be a way to unify it. This is also our common goal. Maybe in the future we will be able to discover that the high-temperature superconducting mechanism is not the end. The room-temperature superconducting mechanism can even be achieved regardless of temperature changes. The mechanism that maintains the superconducting state is the real end point, and that will be the real—"

"future!"

Not only George Parisi, but also many scholars were interviewed, and they all gave very high evaluations.

And Edward Witten is repeating his old tune this time.

"Previously, for the quality gap problem that Xiao Yi proved, the Nobel Prize Committee will most likely not award an award for it. Even if it does, it will probably take decades."

"However, I think the XSC theory should be completely worthy of an immediate Nobel Prize. I also believe that the entire physics community must also recognize this."

"Anyway, the Nobel Prize in Physics was awarded to 25-year-old William L. Bragg back then. Now it is not too much to award Xiao Yi."

Witten's interview immediately won the approval of many people, especially on the Internet, where quite a few netizens began to call out the Nobel Prize Committee.

Platforms such as Twitter have accounts for the Nobel Prize Committee.

[@Nobel Prize Committee, this is the high-temperature superconducting mechanism! Just tell me whether it deserves a Nobel Prize! 】

[@Nobel Prize Committee, my eldest brother is talking to you! 】

[@Nobel Prize Committee, someone here is rumoring that there is a shady situation in your award selection process. 】

[@Nobel Prize Committee, deduct 1 and get hellfire]

[Is 111 really a gift? 】

Royal Swedish Academy of Sciences, Office of the Nobel Prize Selection Committee in Physics.

"Has everyone seen it? Now people are calling us online."

At the first table, the chairman of the committee, Eva Olsson, glanced at the jury members present and said.

Next to him, Nils Matsson shook his head and said, "It's impossible for us to listen to what they say. This is the Nobel Prize! They don't understand the rules of the award at all."

Goran K. Hansen said at this time: "But I think that the high-temperature superconductivity mechanism is really worthy of a Nobel Prize in Physics."

Ulf Danielsson said: "Although it is indeed worthy, the problem is that there is less than half a month left before the winner is announced, and the deadline for nominations ends in January. Is Xiao Yi on the list?"

Others also nodded: "Indeed, whether it is the mass gap problem, the X-particle, or the high-temperature superconductivity mechanism, it is all after July, and he should not be on the nomination."

But at this time, someone said: "Well... he seems to be really there?"

Everyone was stunned and looked at this person.

Thors Hansen flipped through a list in his hand, which marked all the nominees this year and their related achievements, and among them, Xiao Yi was really on it.

He said: "Absolute electronic calculation."

Everyone suddenly understood.

Absolute electronic calculation, as a better computational material theory than density functional theory, can certainly make Xiao Yi a nominee.

But...

"Even if this thing is really going to be awarded the Nobel Prize, it has nothing to do with our physics. Didn't density functional theory win the Chemistry Prize?"

Everyone else nodded.

However, at this time, someone else said: "But since he has been nominated, then... although the high-temperature superconductivity mechanism is his latest achievement, it seems that it can also be included as a project selection?"

Everyone present was stunned.

Really?

"Okay, do you really think we have to choose a 19-year-old Chinese to win the award?" At this time, Eva Olsson, who was sitting in the first seat, frowned and said: "He is too young!"

"But that's the high-temperature superconductivity mechanism!" Goran K. Hansen said.

He is a condensed matter physicist and knows the significance of the high-temperature superconductivity mechanism too well.

"I know that is the mechanism of high-temperature superconductivity! But why don't we wait a few more years? Wait until someone really develops high-temperature superconducting materials that are useful in industry based on his theory!"

Eva Olsson made a decision, "It's settled. As long as such high-temperature superconducting materials are born, we will choose him as the winner."

Goran K. Hansen shook his head and said nothing more.

But he also knew that although there is a theory now, God knows how many years it will take to really develop high-temperature superconducting materials with large-scale use value.

This kind of thing can only depend on luck.

Chapter 186 Writing a Textbook

School of Materials, Sun Lina's laboratory.

Xu Ming, Liu Chao, Zhao Yuanyuan and others stood together, looking at a laboratory table in front of them, and in front of the laboratory table was Xiao Yi.

Xiao Yi, who was wearing a white coat, had a pile of samples and corresponding experimental reports in front of him.

It seemed that he was studying the various data corresponding to these samples.

Although Xu Ming and others didn't know, what results could be obtained from these experimental reports?

But think about their senior sister, she also took a bunch of experimental reports, and then found a topic that could be published in a top journal from a pile of data that seemed to have no outstanding features and could only be called garbage in their eyes.

For a moment, they looked at each other and finally shrugged their shoulders.

It’s better not to compare with these two perverts, otherwise they will only be hurt.

What’s more, Xiao Yi in front of them has just figured out the high-temperature superconductivity mechanism, which is even better than their senior sister.

“Do you think Xiao Shen can be selected for the Nobel Prize?”

Liu Chao asked in a low voice.

Xu Ming next to him thought about it, and finally said hesitantly: “It should be... OK?”

Zhao Yuanyuan said: “Everyone on the Internet says so, maybe?”

Thinking that there is a Nobel Prize candidate in front of them, they can’t help but show an expression of admiration.

That’s the Nobel Prize!

For students like them, this thing is completely unimaginable.

Xiao Yi didn’t notice that Xu Ming and others were looking at him with admiration.

As for the Nobel Prize, he is probably the least concerned person in this matter.

As the saying goes, if I win, I am lucky, if I lose, I am doomed.

If this matter affects his mentality, it will be completely unprofitable.

So, instead of paying attention to whether he can win the prize, he might as well pay attention to the samples in front of him.

The samples in front of him are all kinds of high-temperature superconductors, which he prepared recently.

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