A breakthrough in superconductivity research: the law of superconductivity and the critical constant! 》

"The youngest Fields winner, released the results of condensation physics that shook the world!" 》

Nature Magazine Announces New Research: Calculating Superconducting Critical Temperatures! 》

"In the 21st century, the most important achievement of superconductivity is about to lead the madness of the scientific community!" 》

"Looking forward from today, science and technology take off!" 》

Wang Hao's New Achievement: Nobel Laureate in Physics Has Been Booked! 》

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Wang Hao's paper published in the journal "Nature" has aroused widespread attention in the scientific community, and has been recognized by a large number of institutions and scientists, and many scientific and technological media have reported it.

Other media outlets followed suit.

The number of stories has grown exponentially, and in less than a day, it has taken up a lot of news space and attracted attention from all over the world.

Many people saw the news and didn't understand what was going on for a while, but after a closer look, they realized that the research on superconductivity had progressed.

At first, they didn't think it was a big deal, because every once in a while, a technological breakthrough would be reported, and most of the content would be incomprehensible.

The same is true for superconductivity research, which has long been out of the realm of ordinary people's understanding.

For example, topological superconducting materials.

Topological superconducting materials have been the focus of attention in the field of condensation physics in the past decade.

This material is thought to be widely used in quantum computers, and neither topological superconducting materials nor quantum computers seem to have anything to do with the lives of ordinary people.

When the news really became popular, many media began to popularize science.

The simple summary of the popular science content is, "This latest achievement of superconductivity can greatly improve mankind's understanding of superconductivity theory and lead to a breakthrough in superconductivity technology." ”

Continue to summarize, that is, "superconducting technology is ushering in a take-off, and human science and technology is about to usher in the fourth revolution!" ”

There are many popular science reports in the media, including what kind of changes have taken place in human science and technology after the take-off of superconducting technology.

For example, the technology related to electricity will usher in a great improvement.

For example, maglev will become the preferred mode of transportation in the future.

For example, the energy supply is no longer an issue.

Wait a minute.

A sentence in the report of "Xinhua Youth Daily" illustrates the changes that the development of superconducting technology will bring, "The take-off of superconducting technology will change the existing scientific and technological landscape!" ”

Superconductivity technology is just too important.

In terms of energy supply, most of the electricity is still used nearby, because the energy loss caused by electric transportation is very large, and the farther the distance, the greater the loss.

If we can develop superconducting materials at room temperature, there will be no problem in transporting domestically produced electricity directly to Ozhou.

This directly changes the energy logic.

In addition, many technologies related to electricity will advance rapidly.

For example, the most common electronic products.

There are many technologies in electronic products that do not need to be paid attention to, only the performance of the product, because the state of superconductivity will not lose energy, and it will not bring a series of effects such as heat generation and low efficiency.

In the case of superconducting conductors, even magnetic forces are impenetrable, resulting in some technologies that no longer have an advantage, while others that do not seem to have 'practical value' may suddenly rise.

This is a cross-level technology that has brought about a change in the logic of science and technology.

In the continuous media reports, there has also been a lot of discussion in public opinion, "This latest research is simply a bug, using a formula to calculate the critical temperature of superconducting materials, and the experiment is not necessary at all." ”

"This is still the research made by Wang Hao, the great god, worthy of the great god, changed to the field of physics, can also complete the Nobel Prize-level results."

"No, beyond the Nobel Prize!"

"In the past few decades, many physicists have won the Nobel Prize for their research on the theoretical mechanism of superconductivity, and their research will definitely not catch up with this one!"

"This research cannot be overstated, it is directly equivalent to creating a new field of research!"

"What you said is too professional, I have read a lot of popular science reports, and what I am most looking forward to now is to be able to drive a maglev car......"

"Upstairs, don't look forward to it, when it really comes out, you can't afford it!"

……

While a large number of media reports are being made, many professional institutions around the world are also researching Wang Hao's latest achievements.

Every institution is very interested.

Just like the discussion of public opinion, Wang Hao's research has created a new direction for the study of superconductivity mechanism, and it can even be said that it will become the main direction.

His research directly links theory and application.

The previous research on the theoretical mechanism of superconductivity does not seem to have anything to do with the application, as if it is the content of two fields.

His results are subversive.

Many institutions also hope to find a new direction from Wang Hao's research, and what they need to do is to understand what is the core of Wang Hao's research.

In Wang Hao's published paper, he explained his research, which is based on microscopic morphology, which is mathematically understood as 'new geometry'.

In some technology media reports, the new geometry has been named 'Wang's geometry'.

Therefore, it is easy to conclude that the shaping of Wang's geometry is the core of the research, and Wang Hao's work report at the Congress of Mathematicians also proves this.

But what is the shaping process?

Some people think that Wang Hao is using the study of electromagnetic field force as a breakthrough, and the left evidence is that at the conference of mathematicians, Wang Hao directly talked about using Wang's geometry to explain electromagnetic force.

So how does Wang's geometry explain electromagnetic force?

Some media reporters interviewed professional physicists, but none of them could give a definitive answer.

Charles Kane of the University of Pennsylvania was in the spotlight because he was a reviewer for the paper, and most importantly, because his research on 'special forms of particles' was almost identical to the microscopic morphology mentioned in Wang's work.

Charles Kane has received a lot of attention and he has also given public interviews to the media.

"In Wang Hao's research, the microscopic form is the special form of particles."

"However, his research went much further, and he developed new geometries and explained the special morphology of particles, and he had practical results."

In fact, Charles Kane wanted to highlight his work, but in the end, his research only said that there may be a special form of particle, and did not explain it in more detail, and even the expression was somewhat uncertain.

In any case, his research results are closest to Wang Hao's research.

Charles Kane went on to state his opinion, "I think he's done with a completely new theory, or a theory of a new direction, as a hypothesis. ”

"Like, I know his theory of annihilation."

"On the study of this theory, he only made some ideas public, but I think there is a connection."

"Maybe he'll continue to dig deeper? In short, there will definitely be a new theory, and only with the premise of theory can there be a direction. ”

"Now for us, the most important thing is to link the existing superconductivity theory and condensation physics research with Wang Hao's recent achievements, so that we can continue to improve the mechanism theory of superconductivity."

"Combine relevant theories and then carry out targeted experimental verification."

"That's the main direction for the future."

Charles Kane's formulation also represents the thinking of many physicists.

Wang Hao's latest research results have little relevance to the traditional superconducting mechanism research, but they are directly related to the application, but some theoretical advances in the past have also been verified by experiments.

If the two can be combined, it will definitely be of great significance for the improvement of the theoretical mechanism of superconductivity.

Because of the lack of information, Charles Kane's ideas are still limited to a certain extent.

Ameriken, Los Alamos National Laboratory.

Philippe Rawrell is an important expert in condensation physics, and he has been working for the national laboratory and has been working on some confidential research.

Fifteen years ago, he was involved in the study of alternating gravity, which lasted for seven years, and because the research did not make any progress, the experimental data was sealed.

Now he has received the latest news that Wang Hao's research is likely to be related to the alternating gravity experiment.

It was not difficult for Amriken to get the news, and it was even very easy, because the physics laboratory first reproduced the AC gravity experiment and did not keep it secret from the outside world.

Later, after the success of the replication experiment, the research in the direction of communication gravity was classified as confidential, but only the relevant data and technology were kept secret, not the research information was completely kept secret.

In fact, only those very important studies will keep the research information secret.

For example, human-to-body experiments that cannot be accepted by the outside world.

For example, research on the latest military science and technology, and some banned nuclear research.

Wait a minute.

The research related to AC gravity is far from this level, and it is not even able to catch up with some research such as 'electromagnetic guns'.

The reason is simple - not practical!

Research may sound great, but it's so hard to move from theory to application.

The internal assessment of the State Administration of Science and Industry for research is that "in the next two hundred years, it will not be used at all." ”

One is because the technical difficulty is too high.

The second is that the cost is too high.

Even if 100% antigravity is achieved, there is still a big gap between it and the application, and a superconductivity experiment can cost millions of dollars.

It is conceivable how expensive anti-gravity research is to be applied.

For similar research to be put into practice, the premise is that the large-scale application of superconductivity is first realized.

Even if superconducting technology is applied on a large scale, it is very difficult to apply anti-gravity, and the AC gravity field is in the region, and the device that realizes anti-gravity is itself very heavy.

Considering how many of these technical difficulties there are, 'I won't be able to use it in 200 years' is not an empty phrase.

Philip Rawrell was shocked to learn that Wang Hao's latest research might be related to the AC gravity experiment, because he had also participated in the AC gravity experiment, but it only increased the strength of the AC gravity field.

Fifteen years ago, they had a dedicated team working on communicative gravity, which lasted for seven years, and finally gave up on keeping it sealed.

They hope to develop a true anti-gravity technique in the AC gravity experiment.

After spending three billion dollars, the result is only to increase the strength of the AC gravity field, and there is no progress on the principle.

"This is mainly because there has not been much progress in the study of superconductivity mechanisms."

Philippe Rawrell sums it up this way:

When the experimental data was sealed, the research stalled or even was almost forgotten.

Philip Rawrell saw the relevant news again, and realized that their research had gone the wrong way, "It turns out that the AC gravity experiment can assist in the study of superconductivity mechanisms. ”

"We've always been wrong, antigravity is too far away, and everything is based on the study of superconductivity."

Now Philippe Rawrell only felt embarrassed, and in the face of the questioning eyes of the investigators who came to the study, he could only explain, "The original direction of the project was to increase the strength of antigravity, and we have been very successful in increasing the strength. ”

It's the truth.

Investing billions of dollars in research will naturally yield great results.

They increased the AC gravity field strength to 34 percent and then came to the conclusion that "forty percent is close to the extreme value of anti-gravity, and no further improvement is possible." ”

His advice to the investigators was, "There is no need to keep this study secret, and it is pointless to rely on ourselves alone, even if there is a breakthrough." ”

"Now, this experiment has been confirmed to be related to the study of superconductivity mechanism, and I think it can be made public to a certain extent, and it can also be exchanged with the Chinese team, or it can be cooperated in research."

"If we can make a breakthrough in superconducting technology, it will be very valuable for us and for them."

……

Seohai University.

Under the upsurge of international public opinion, Wang Hao naturally received huge attention.

A large number of media reporters wanted to be able to interview him, and the university had already experienced it, and they banned interviews again, and journalists had to apply to do so.

Higher authorities are also interested in the research results.

The physics laboratory has made a detailed report to the superiors, and the leaders and experts of the State Administration of Science and Industry and the Science and Technology Department have formed a team to go to Xihai University.

The leader is Zhou Minhua, deputy director of the Bureau of Science and Industry.

After Zhou Minhua led the team to Xihai University, he immediately asked Wang Hao about the content of the research, and they were mainly concerned about two directions.

One is the theoretical study of the superconductivity mechanism.

The development of superconducting technology is believed to be able to lead the fourth scientific and technological revolution of mankind.

Wang Hao said, "My research can calculate the critical temperature of elemental superconductivity, but the microscopic form is still very imperfect, and I have no definite idea of the next direction." ”

It's the truth.

The outside world believes that his research is a breakthrough in the correlation between superconductivity theory and application from 0 to 1, and will lead superconductivity technology to achieve rapid take-off.

But in reality, there are a lot of difficulties with a brand new study.

Now that his research is limited to elemental elements, it will be a difficult process to move from elemental to compound, and he hopes to see the 'special' phenomenon in the experiment.

It did not appear in the experiment, so the follow-up research has not yet found a direction.

Zhou Minhua nodded knowingly.

In many news reports from the outside world, it seems that superconducting technology is about to be applied on a large scale, but they know very well that it is still far away, and they have just realized the connection between theory and application.

This correlation has gone to '1', but 'large-scale application' is estimated to be possible until '100'.

After that, Wang Hao talked about the research on the strength of the AC gravity field, "We have achieved a field strength of more than 20 points, and then improve it, I think there is no problem in breaking through 40 points." ”

"Although the field strength is not superimposable, theoretically, it is possible to achieve a higher field strength by applying two different superconducting materials in one experiment."

After Wang Hao finished his explanation, the rest of the team went to visit the physics laboratory and learn more about the experimental research.

Zhou Minhua put aside the others, was alone in the office with Wang Hao, and asked, "Professor Wang, do you think that if we conduct our own research, can we achieve anti-gravity technology in the future?" ”

"Huh?"

Wang Hao was stunned when he heard this, and he asked with some surprise, "Director Zhou, what are you talking about, is it ...... Apply? ”

"For example, to create an anti-gravity vehicle for military use? Or is it the application of anti-gravity technology in the aerospace field? Zhou Minhua gave two examples to illustrate.

Wang Hao shook his head and said, "If we just rely on ourselves, it will be impossible in dozens or hundreds of years, right?" ”

"That's what everyone else thinks, but I'd like to hear from you." Zhou Minhua said with interest.

Wang Hao thought about it carefully and said, "There are two issues involved, one is the application of technology, anti-gravity, and the premise is that superconducting technology can achieve low-cost large-scale application." ”

"Superconducting technology is the premise, low cost, can be understood in this way, for example, anti-gravity aircraft, if it is for military use, you can refer to the current aircraft."

"Civilian aircraft can be manufactured in a few million, but aircraft for military use may cost hundreds of millions, billions, and the cost will be more than 100 times higher."

"So technically, it is necessary to realize the low-cost large-scale application of superconducting technology."

Wang Hao continued, "The second is scientific research funding and energy. ”

"It's just basic research, because everything depends on us, and all technical difficulties have to be overcome by ourselves, especially theoretical research."

"In my research, I mentioned a 'critical constant', but if this constant wants to be accurate, it will require countless experiments, and the total cost may be at least tens of billions, or even hundreds of billions."

"The same is true for subsequent studies, there are many similar problems, which require a lot of repetitive experiments."

"This is not one team, and what two teams can accomplish may require thousands or tens of thousands of scientific researchers, as well as a huge amount of time and funds."

"So we want to rely on ourselves to realize the application of anti-gravity technology......"

Wang Hao shook his head as he spoke.

He is very interested in the research of anti-gravity and wants to realize the application of anti-gravity technology, but no new field of research can be completed by one or two teams.

This is a reality that must be faced.

Even if it is just to improve the underlying theory, it is an extremely complex process, and there are too many difficulties to overcome when it comes to the implementation of application technology.

Zhou Minhua nodded after hearing this, and said, "Ameriken approached us and wanted to exchange technical data related to gravity experiments, and also said that we could conduct cooperative research. What do you think? ”

Wang Hao was suddenly surprised.

The news was so sudden, so sudden that it was a little unexpected.

He thought for a moment and said, "Then it depends on what technical and experimental data they can provide." ”

"The core of our experiment is node control, and the follow-up may involve the technology of mixing multiple materials for experiments, and the basic theory of the experiment can be exchanged, but the key technology is absolutely not."

"It takes a lot of energy and time for them to break through in these two directions."

"In the study of anti-gravity, it is impossible to achieve absolute secrecy after the scale is expanded, but in the new field, we must master the absolute superiority of technology!"

Zhou Minhua nodded and said, "Professor Wang, you are an expert in this area. If you finally make a decision, whether it's to cooperate with them or to exchange information, it's up to you to grasp the content. ”

"There's no problem with that." Wang Hao nodded very seriously.