From university lecturer to chief academician.
Chapter 218 International boiling, the possibility of realizing the application, Americon is going t
Chapter 218 International boiling, the possibility of realizing the application, Americon is going to do the exchange?
"Superconductivity research has ushered in a breakthrough: the law of superconductivity and critical constants!" "
"The Youngest Fields Laureate Releases Condensed Matter Physics Results That Shock the World! "
"Nature" published the latest research: calculating the superconducting critical temperature! "
"In the 21st century, the most important achievement of superconductivity is about to lead the scientific world to madness! "
"Looking forward from today, technology takes off!" "
"Wang Hao's New Achievements: The Nobel Prize Winner in Physics has been booked! "
……
……
Wang Hao's paper published in the "Nature" magazine has aroused widespread attention in the scientific community. After being recognized by a large number of institutions and scientists, many scientific and technological media have made reports.
Other media followed suit.
The number of reports has grown exponentially. In less than a day, it has occupied a large number of news pages and attracted attention from all over the world.
Many people saw the news and didn't understand what happened for a while. After a closer look, they realized that the research on superconductivity had made progress.
They thought it was nothing at first, because every once in a while, a technological breakthrough would be reported, and most of the content was incomprehensible.
The same is true for the research on superconductivity, and the relevant progress has long been beyond the understanding of ordinary people.
For example, topological superconducting materials.
Topological superconducting materials have been the focus of attention in the field of condensed matter physics in the past decade.
This material is considered to be widely used in quantum computers, and whether it is a topological superconducting material or a quantum computer, it seems that it has nothing to do with the lives of ordinary people.
When the news really became popular, many media began to popularize science.
A brief summary of the popular science content is, "This latest achievement in superconductivity can greatly enhance human understanding of superconductivity theory, and will lead the realization of technological breakthroughs in the field of superconductivity."
Continue to summarize, that is, "Superconducting technology is ushering in a take-off, and human 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 superconducting technology took off.
For example, technologies related to electricity will usher in great improvements.
For example, maglev will become the preferred means of transportation in the future.
For example, energy supply is no longer a problem.
and many more.
A sentence in the report of "Xinhua Youth Daily" explained the changes brought about by the development of superconducting technology, "The take-off of superconducting technology will change the existing technological structure!"
Superconducting technology is really important.
In terms of energy supply, most of the electricity is still used nearby, because the energy loss caused by power transportation is very large, and the farther the distance, the greater the loss.
If superconducting materials at room temperature can be developed, there will be no problem in directly transporting domestically produced electricity to O continent.
This directly changes the energy logic.
In addition, many technologies related to electricity will advance rapidly.
For example, the most common electronic products.
There is no need to pay attention to many technologies of electronic products, just focus on product performance, because the superconducting state will not consume energy, and will not bring a series of effects such as heat generation and low efficiency.
In the case of conductors in a superconducting state, even magnetism is impenetrable, leading to the fact that some technologies no longer have an advantage, while others that seem to have no 'practical value' may suddenly rise.
This is a cross-level technology that brings changes in the logic of technology.
In the media's continuous reports, there has also been a lot of discussion in public opinion, "This latest research is simply a BUG. Using the formula to calculate the critical temperature of superconducting materials does not need to be done at all."
"This is the research done by the great master Wang Hao. The great master is worthy of being a great master. In the field of physics, he can also achieve Nobel-level achievements."
"No, beyond the Nobel class!"
"In the past few decades, many physicists have won the Nobel Prize for their research on the theoretical mechanism of superconductivity, and their research must not be able to catch up with this one!"
"This research can't be overemphasized, it directly equals to creating a new research field!"
"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 won't be able to afford it!"
……
While a large number of media are reporting, many professional organizations around the world are also conducting research on Wang Hao's latest achievements.
Every institution is very interested.
Just like a discussion on public opinion, Wang Hao's research has created a new direction in the study of superconducting mechanisms, and it can even be said to become the main direction.
His research directly links theory and application.
The previous research on the theoretical mechanism of superconductivity seems to have nothing to do with the application, as if it is the content of two fields.
His results are subversive.
Many institutions also hope to find new directions 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 public achievement paper, he explained his own research, which is based on the microscopic form, and the mathematical understanding is "new geometry" as the core.
In some scientific and technological media reports, the new geometry has been named 'Wang's geometry'.
Therefore, it can be easily concluded that the shaping of Wang's geometry is the core of the research, and Wang Hao's work report at the conference of mathematicians also proves this point.
But what is the shaping process?
Some people think that Wang Hao took the research of electromagnetic force as a breakthrough point. The proof 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 the electromagnetic force?
Some media reporters interviewed professional physicists, but none of them could give a definite answer.
Charles Kane of the University of Pennsylvania became the focus, firstly because he was the reviewer of the paper, and most importantly, his research results on "special particle morphology" were almost consistent with the microscopic morphology mentioned in Wang Hao's research of.
Charles Kane has gotten a lot of attention, and he's been openly interviewed by the media.
"In Wang Hao's research, the microscopic form is the special form of particles."
"However, his research went much deeper. He shaped new types of geometry, explained the special shape of particles, and had practical results."
In fact, Charles Kane hopes to emphasize his own results, but in the end his research only said that there may be a special form of particles, and did not give a more detailed explanation for it, and even the expression was somewhat uncertain.
In any case, his research results are the closest to those of Wang Hao.
Charles Kane continued to explain his views, "I think he has completed a brand new theory, or a theory in a new direction as a premise."
"For example, I know about his annihilation theory."
"On the study of this theory, he just disclosed some ideas, but I think it is related."
"Maybe he will continue to study in depth? In short, there will definitely be a new theory, and the theory is the premise to have a direction."
"For us now, the most important thing is to link the existing superconducting theory and condensed matter physics research with Wang Hao's recent achievements, so that we can continue to improve the superconducting mechanism theory."
"Combine the relevant theories together, and then carry out targeted experimental verification."
"That's the main direction of the future."
Charles Kane's statement also represents the thinking of many physicists.
Wang Hao's latest research results have little to do with traditional superconducting mechanism research, but they are directly related to applications, 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 to the perfection of the theoretical mechanism of superconductivity.
Because of ignorance of some information, Charles Kane's ideas are still subject to certain limitations.
American, Los Alamos National Laboratory.
Philip Röhrer is an important expert in condensed matter physics. He has been working for the national laboratory and engaged in some confidential research.
Fifteen years ago, he participated in the research on the exchange of gravity. The research has continued for seven years. Because the related research has not progressed, the experimental data has been sealed up.
Now he got the latest news that Wang Hao's research is probably related to the communication gravity experiment.
It is not difficult for American officials to get this news, and it is even very easy, because the physics laboratory first reproduced and communicated the gravity experiment, and did not keep it secret from the outside world.
Later, after the success of the re-engraving experiment, the research on the exchange of 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 even keep the research information secret.
For example, human-body experiments that cannot be accepted by the outside world.
For example, research on the latest military technology, and some banned nuclear research.
and many more.
The research related to communication gravity is far from reaching this level, and it can't even catch up with some researches such as "electromagnetic guns".
The reason is simple - not practical!
Research sounds great, but it is too difficult to move from theory to application.
The State Administration of Science and Industry's internal assessment of research is, "It is impossible to use it in the next 200 years."
One, because the technical difficulty is too high.
The second is that the cost is too high.
Even if 100% anti-gravity is achieved, there is still a big gap to put it into application, and a superconducting experiment will cost millions of dollars.
It is conceivable how high the cost of anti-gravity research and application is.
If similar research is to be put into application, the premise is that the large-scale application of superconductivity has been realized first.
Even if superconducting technology is applied on a large scale, it is very difficult to apply anti-gravity. The AC gravity field exists in an area, and the equipment for realizing anti-gravity itself is very heavy.
Thinking about how many technical difficulties there are, "it will not be used within 200 years" is not empty talk.
Philip Rohrer got the news and was shocked to know that Wang Hao's latest research may be related to the communication gravity experiment, because he also participated in the communication gravity experiment, but he only increased the intensity of the communication gravity field.
Fifteen years ago, they had a dedicated team to study the gravity of communication. The research lasted for seven years, and finally gave up the preservation.
They hope to develop real anti-gravity technology in the communication gravity experiment.
After spending 30 billion U.S. dollars, the result they gave was only to increase the strength of the exchange gravity field, but there was no progress in the principle.
"This is mainly because the research on the mechanism of superconductivity has not made much progress."
Philippe Rohrer summed it up like this.
After the experimental data was sealed, the research also stagnated, and it was almost forgotten.
Philip Rohrer saw the relevant news again, and realized that their research was on the wrong path. "It turns out that the AC gravity experiment can assist in the study of the superconducting mechanism."
"We have been wrong all along. Antigravity is too far away. Everything is still based on the research of superconductivity."
Now Philip Laurel just feels embarrassed. Faced with the questioning eyes of the research investigators, he can only explain, "The initial direction provided by the project is to increase the strength of anti-gravity, and we have also achieved great results in improving the strength. .”
This is the truth.
Investing billions of dollars in research has naturally yielded great results.
They increased the strength of the exchange gravity field to 34%, and then came to a conclusion, "40.00%, which is close to the extreme value of anti-gravity, and it is impossible to increase it."
His suggestion to the research investigators is, "There is no need to keep this research secret, relying on ourselves alone, even if there is a breakthrough, it is meaningless."
"Now, this experiment has been confirmed to be related to the study of the superconducting mechanism. I think it can be made public to a certain extent, and it can also conduct technical exchanges with Chinese teams, or conduct research in cooperation."
"If there is a breakthrough in superconducting technology, it will be of great value to both us and them."
……
Xihai University.
Under the upsurge of international public opinion, Wang Hao naturally received great attention.
A large number of media reporters wanted to interview him. The university had already experienced this, and they banned interviews again. Journalists had to apply for interviews.
The higher authorities are also very concerned about the research results.
The physics laboratory has made a detailed report to the superior, and the leaders and experts from the Science and Technology Department of the State Administration of Science and Technology formed a team 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 research content. They were mainly concerned about two directions.
One is the theoretical study of the mechanism of superconductivity.
This is a research that has attracted international attention and is of great significance. The development of superconducting technology is considered to be able to lead the fourth scientific and technological revolution of mankind.
Wang Hao said, "My research can calculate the superconducting critical temperature of elements, but the microscopic morphology is still very imperfect. I have no idea about the next step."
This is the truth.
The outside world believes that his research is a breakthrough in superconductivity theory and application correlation from 0 to 1, which will lead to the rapid take-off of superconductivity technology.
But in reality, a whole new study presents many difficulties.
Now his research is limited to simple elements, and it will be a difficult process to move from simple substances to compounds. He hopes to see "special" phenomena appear in the experiment.
It did not appear in the experiment, which led to the lack of direction for follow-up research.
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 are very clear that the distance is still far away, and they have just realized the connection between theory and application.
This correlation has reached '1', but 'large-scale application' is estimated to be possible until it reaches '100'.
After that, Wang Hao talked about the research on the strength of the exchange gravity field, "We have achieved a field strength of more than [-] points, and we will improve it later. I think there is no problem breaking through [-] points."
"Although the field strength cannot be superimposed, theoretically speaking, applying two different superconducting materials in one experiment may achieve a higher field strength."
After Wang Hao finished his explanation, the rest of the team visited the physics laboratory to learn more about the experimental research.
Zhou Minhua left other people alone in the office with Wang Hao, and asked, "Professor Wang, do you think we can realize anti-gravity technology in the future if we conduct research by ourselves?"
"what?"
Wang Hao was stunned when he heard that, and he asked in surprise, "Director Zhou, what you're talking about is realization, is it... application?"
"For example, to manufacture anti-gravity aircraft for military use? Or apply anti-gravity technology to the aerospace field?" Zhou Minhua gave two examples to illustrate.
Wang Hao shook his head and said, "If it's just by ourselves, it won't be possible within dozens or hundreds of years, right?"
"Other people also see it in the same way, but I still want to hear your opinion." Zhou Minhua said with interest.
Wang Hao thought about it carefully, and said, "There are two issues involved, one is technology, and the application of anti-gravity, the premise is that superconducting technology can achieve large-scale application at low cost."
"Superconducting technology is the premise and low cost. It can be understood in this way. For example, if the anti-gravity aircraft is used for military purposes, you can refer to the current aircraft."
"Civilian aircraft can be manufactured in a few million dollars, but military aircraft may cost hundreds of millions or billions, and the cost will be more than a hundred times higher."
"So technically speaking, it is necessary to realize the large-scale application of superconducting technology at low cost."
Wang Hao continued, "The second is research funding and energy."
"It's just about basic research, because everything depends on ourselves, and all technical difficulties must be overcome by ourselves, especially theoretical research."
"I mentioned a 'critical constant' in my research, but if this constant is to be accurate, countless experiments are required, and the total cost may be at least tens of billions, or even hundreds of billions."
"The follow-up research is the same. There are many similar problems, which require a lot of repeated experiments."
"This is not a team. What can be done by two teams may require thousands or tens of thousands of scientific researchers, as well as a huge amount of time and funds."
"That's why we rely on ourselves alone to realize the application of anti-gravity technology..."
Wang Hao shook his head while speaking.
He is very interested in the research of anti-gravity, and also very much wants to realize the application of anti-gravity technology, but any research in a new field cannot be completed by one or two teams.
This is a reality that must be faced.
Even if it is just to perfect the underlying theory, it is an extremely complicated process, and then to realize the application technology, there are too many difficulties to be overcome.
Zhou Minhua nodded after listening, and said, "American found us and wanted to exchange and exchange technical data related to gravity experiments, and also said that we can carry out cooperative research. What do you think?"
Wang Hao was suddenly surprised.
This news was so sudden that it caught people off guard.
He thought for a while and said, "That depends on what technology and experimental data they can provide."
"The core of our experiment is node deployment and control. The follow-up may involve the technology of mixing multiple materials for experiments. The basic theory of the experiment can be exchanged, but the key technology is absolutely not."
"It will take a lot of energy and time for them to make breakthroughs in these two directions."
"In terms of anti-gravity research, after expanding the scale, it is impossible to achieve absolute secrecy. However, in the new field, we must grasp the absolute advantage in technology!"
Zhou Minhua nodded and said, "Professor Wang, you are an expert in this area. If you finally make a decision, whether it is to cooperate with them or exchange information, you still need to grasp the content."
"This is no problem." Wang Hao nodded seriously.
Regarding the update, I apologize again. After taking the medicine for a whole day, I feel much more comfortable in my teeth tonight. The pain period has finally passed... Tomorrow I will resume normal [-]D update.
(End of this chapter)
"Superconductivity research has ushered in a breakthrough: the law of superconductivity and critical constants!" "
"The Youngest Fields Laureate Releases Condensed Matter Physics Results That Shock the World! "
"Nature" published the latest research: calculating the superconducting critical temperature! "
"In the 21st century, the most important achievement of superconductivity is about to lead the scientific world to madness! "
"Looking forward from today, technology takes off!" "
"Wang Hao's New Achievements: The Nobel Prize Winner in Physics has been booked! "
……
……
Wang Hao's paper published in the "Nature" magazine has aroused widespread attention in the scientific community. After being recognized by a large number of institutions and scientists, many scientific and technological media have made reports.
Other media followed suit.
The number of reports has grown exponentially. In less than a day, it has occupied a large number of news pages and attracted attention from all over the world.
Many people saw the news and didn't understand what happened for a while. After a closer look, they realized that the research on superconductivity had made progress.
They thought it was nothing at first, because every once in a while, a technological breakthrough would be reported, and most of the content was incomprehensible.
The same is true for the research on superconductivity, and the relevant progress has long been beyond the understanding of ordinary people.
For example, topological superconducting materials.
Topological superconducting materials have been the focus of attention in the field of condensed matter physics in the past decade.
This material is considered to be widely used in quantum computers, and whether it is a topological superconducting material or a quantum computer, it seems that it has nothing to do with the lives of ordinary people.
When the news really became popular, many media began to popularize science.
A brief summary of the popular science content is, "This latest achievement in superconductivity can greatly enhance human understanding of superconductivity theory, and will lead the realization of technological breakthroughs in the field of superconductivity."
Continue to summarize, that is, "Superconducting technology is ushering in a take-off, and human 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 superconducting technology took off.
For example, technologies related to electricity will usher in great improvements.
For example, maglev will become the preferred means of transportation in the future.
For example, energy supply is no longer a problem.
and many more.
A sentence in the report of "Xinhua Youth Daily" explained the changes brought about by the development of superconducting technology, "The take-off of superconducting technology will change the existing technological structure!"
Superconducting technology is really important.
In terms of energy supply, most of the electricity is still used nearby, because the energy loss caused by power transportation is very large, and the farther the distance, the greater the loss.
If superconducting materials at room temperature can be developed, there will be no problem in directly transporting domestically produced electricity to O continent.
This directly changes the energy logic.
In addition, many technologies related to electricity will advance rapidly.
For example, the most common electronic products.
There is no need to pay attention to many technologies of electronic products, just focus on product performance, because the superconducting state will not consume energy, and will not bring a series of effects such as heat generation and low efficiency.
In the case of conductors in a superconducting state, even magnetism is impenetrable, leading to the fact that some technologies no longer have an advantage, while others that seem to have no 'practical value' may suddenly rise.
This is a cross-level technology that brings changes in the logic of technology.
In the media's continuous reports, there has also been a lot of discussion in public opinion, "This latest research is simply a BUG. Using the formula to calculate the critical temperature of superconducting materials does not need to be done at all."
"This is the research done by the great master Wang Hao. The great master is worthy of being a great master. In the field of physics, he can also achieve Nobel-level achievements."
"No, beyond the Nobel class!"
"In the past few decades, many physicists have won the Nobel Prize for their research on the theoretical mechanism of superconductivity, and their research must not be able to catch up with this one!"
"This research can't be overemphasized, it directly equals to creating a new research field!"
"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 won't be able to afford it!"
……
While a large number of media are reporting, many professional organizations around the world are also conducting research on Wang Hao's latest achievements.
Every institution is very interested.
Just like a discussion on public opinion, Wang Hao's research has created a new direction in the study of superconducting mechanisms, and it can even be said to become the main direction.
His research directly links theory and application.
The previous research on the theoretical mechanism of superconductivity seems to have nothing to do with the application, as if it is the content of two fields.
His results are subversive.
Many institutions also hope to find new directions 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 public achievement paper, he explained his own research, which is based on the microscopic form, and the mathematical understanding is "new geometry" as the core.
In some scientific and technological media reports, the new geometry has been named 'Wang's geometry'.
Therefore, it can be easily concluded that the shaping of Wang's geometry is the core of the research, and Wang Hao's work report at the conference of mathematicians also proves this point.
But what is the shaping process?
Some people think that Wang Hao took the research of electromagnetic force as a breakthrough point. The proof 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 the electromagnetic force?
Some media reporters interviewed professional physicists, but none of them could give a definite answer.
Charles Kane of the University of Pennsylvania became the focus, firstly because he was the reviewer of the paper, and most importantly, his research results on "special particle morphology" were almost consistent with the microscopic morphology mentioned in Wang Hao's research of.
Charles Kane has gotten a lot of attention, and he's been openly interviewed by the media.
"In Wang Hao's research, the microscopic form is the special form of particles."
"However, his research went much deeper. He shaped new types of geometry, explained the special shape of particles, and had practical results."
In fact, Charles Kane hopes to emphasize his own results, but in the end his research only said that there may be a special form of particles, and did not give a more detailed explanation for it, and even the expression was somewhat uncertain.
In any case, his research results are the closest to those of Wang Hao.
Charles Kane continued to explain his views, "I think he has completed a brand new theory, or a theory in a new direction as a premise."
"For example, I know about his annihilation theory."
"On the study of this theory, he just disclosed some ideas, but I think it is related."
"Maybe he will continue to study in depth? In short, there will definitely be a new theory, and the theory is the premise to have a direction."
"For us now, the most important thing is to link the existing superconducting theory and condensed matter physics research with Wang Hao's recent achievements, so that we can continue to improve the superconducting mechanism theory."
"Combine the relevant theories together, and then carry out targeted experimental verification."
"That's the main direction of the future."
Charles Kane's statement also represents the thinking of many physicists.
Wang Hao's latest research results have little to do with traditional superconducting mechanism research, but they are directly related to applications, 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 to the perfection of the theoretical mechanism of superconductivity.
Because of ignorance of some information, Charles Kane's ideas are still subject to certain limitations.
American, Los Alamos National Laboratory.
Philip Röhrer is an important expert in condensed matter physics. He has been working for the national laboratory and engaged in some confidential research.
Fifteen years ago, he participated in the research on the exchange of gravity. The research has continued for seven years. Because the related research has not progressed, the experimental data has been sealed up.
Now he got the latest news that Wang Hao's research is probably related to the communication gravity experiment.
It is not difficult for American officials to get this news, and it is even very easy, because the physics laboratory first reproduced and communicated the gravity experiment, and did not keep it secret from the outside world.
Later, after the success of the re-engraving experiment, the research on the exchange of 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 even keep the research information secret.
For example, human-body experiments that cannot be accepted by the outside world.
For example, research on the latest military technology, and some banned nuclear research.
and many more.
The research related to communication gravity is far from reaching this level, and it can't even catch up with some researches such as "electromagnetic guns".
The reason is simple - not practical!
Research sounds great, but it is too difficult to move from theory to application.
The State Administration of Science and Industry's internal assessment of research is, "It is impossible to use it in the next 200 years."
One, because the technical difficulty is too high.
The second is that the cost is too high.
Even if 100% anti-gravity is achieved, there is still a big gap to put it into application, and a superconducting experiment will cost millions of dollars.
It is conceivable how high the cost of anti-gravity research and application is.
If similar research is to be put into application, the premise is that the large-scale application of superconductivity has been realized first.
Even if superconducting technology is applied on a large scale, it is very difficult to apply anti-gravity. The AC gravity field exists in an area, and the equipment for realizing anti-gravity itself is very heavy.
Thinking about how many technical difficulties there are, "it will not be used within 200 years" is not empty talk.
Philip Rohrer got the news and was shocked to know that Wang Hao's latest research may be related to the communication gravity experiment, because he also participated in the communication gravity experiment, but he only increased the intensity of the communication gravity field.
Fifteen years ago, they had a dedicated team to study the gravity of communication. The research lasted for seven years, and finally gave up the preservation.
They hope to develop real anti-gravity technology in the communication gravity experiment.
After spending 30 billion U.S. dollars, the result they gave was only to increase the strength of the exchange gravity field, but there was no progress in the principle.
"This is mainly because the research on the mechanism of superconductivity has not made much progress."
Philippe Rohrer summed it up like this.
After the experimental data was sealed, the research also stagnated, and it was almost forgotten.
Philip Rohrer saw the relevant news again, and realized that their research was on the wrong path. "It turns out that the AC gravity experiment can assist in the study of the superconducting mechanism."
"We have been wrong all along. Antigravity is too far away. Everything is still based on the research of superconductivity."
Now Philip Laurel just feels embarrassed. Faced with the questioning eyes of the research investigators, he can only explain, "The initial direction provided by the project is to increase the strength of anti-gravity, and we have also achieved great results in improving the strength. .”
This is the truth.
Investing billions of dollars in research has naturally yielded great results.
They increased the strength of the exchange gravity field to 34%, and then came to a conclusion, "40.00%, which is close to the extreme value of anti-gravity, and it is impossible to increase it."
His suggestion to the research investigators is, "There is no need to keep this research secret, relying on ourselves alone, even if there is a breakthrough, it is meaningless."
"Now, this experiment has been confirmed to be related to the study of the superconducting mechanism. I think it can be made public to a certain extent, and it can also conduct technical exchanges with Chinese teams, or conduct research in cooperation."
"If there is a breakthrough in superconducting technology, it will be of great value to both us and them."
……
Xihai University.
Under the upsurge of international public opinion, Wang Hao naturally received great attention.
A large number of media reporters wanted to interview him. The university had already experienced this, and they banned interviews again. Journalists had to apply for interviews.
The higher authorities are also very concerned about the research results.
The physics laboratory has made a detailed report to the superior, and the leaders and experts from the Science and Technology Department of the State Administration of Science and Technology formed a team 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 research content. They were mainly concerned about two directions.
One is the theoretical study of the mechanism of superconductivity.
This is a research that has attracted international attention and is of great significance. The development of superconducting technology is considered to be able to lead the fourth scientific and technological revolution of mankind.
Wang Hao said, "My research can calculate the superconducting critical temperature of elements, but the microscopic morphology is still very imperfect. I have no idea about the next step."
This is the truth.
The outside world believes that his research is a breakthrough in superconductivity theory and application correlation from 0 to 1, which will lead to the rapid take-off of superconductivity technology.
But in reality, a whole new study presents many difficulties.
Now his research is limited to simple elements, and it will be a difficult process to move from simple substances to compounds. He hopes to see "special" phenomena appear in the experiment.
It did not appear in the experiment, which led to the lack of direction for follow-up research.
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 are very clear that the distance is still far away, and they have just realized the connection between theory and application.
This correlation has reached '1', but 'large-scale application' is estimated to be possible until it reaches '100'.
After that, Wang Hao talked about the research on the strength of the exchange gravity field, "We have achieved a field strength of more than [-] points, and we will improve it later. I think there is no problem breaking through [-] points."
"Although the field strength cannot be superimposed, theoretically speaking, applying two different superconducting materials in one experiment may achieve a higher field strength."
After Wang Hao finished his explanation, the rest of the team visited the physics laboratory to learn more about the experimental research.
Zhou Minhua left other people alone in the office with Wang Hao, and asked, "Professor Wang, do you think we can realize anti-gravity technology in the future if we conduct research by ourselves?"
"what?"
Wang Hao was stunned when he heard that, and he asked in surprise, "Director Zhou, what you're talking about is realization, is it... application?"
"For example, to manufacture anti-gravity aircraft for military use? Or apply anti-gravity technology to the aerospace field?" Zhou Minhua gave two examples to illustrate.
Wang Hao shook his head and said, "If it's just by ourselves, it won't be possible within dozens or hundreds of years, right?"
"Other people also see it in the same way, but I still want to hear your opinion." Zhou Minhua said with interest.
Wang Hao thought about it carefully, and said, "There are two issues involved, one is technology, and the application of anti-gravity, the premise is that superconducting technology can achieve large-scale application at low cost."
"Superconducting technology is the premise and low cost. It can be understood in this way. For example, if the anti-gravity aircraft is used for military purposes, you can refer to the current aircraft."
"Civilian aircraft can be manufactured in a few million dollars, but military aircraft may cost hundreds of millions or billions, and the cost will be more than a hundred times higher."
"So technically speaking, it is necessary to realize the large-scale application of superconducting technology at low cost."
Wang Hao continued, "The second is research funding and energy."
"It's just about basic research, because everything depends on ourselves, and all technical difficulties must be overcome by ourselves, especially theoretical research."
"I mentioned a 'critical constant' in my research, but if this constant is to be accurate, countless experiments are required, and the total cost may be at least tens of billions, or even hundreds of billions."
"The follow-up research is the same. There are many similar problems, which require a lot of repeated experiments."
"This is not a team. What can be done by two teams may require thousands or tens of thousands of scientific researchers, as well as a huge amount of time and funds."
"That's why we rely on ourselves alone to realize the application of anti-gravity technology..."
Wang Hao shook his head while speaking.
He is very interested in the research of anti-gravity, and also very much wants to realize the application of anti-gravity technology, but any research in a new field cannot be completed by one or two teams.
This is a reality that must be faced.
Even if it is just to perfect the underlying theory, it is an extremely complicated process, and then to realize the application technology, there are too many difficulties to be overcome.
Zhou Minhua nodded after listening, and said, "American found us and wanted to exchange and exchange technical data related to gravity experiments, and also said that we can carry out cooperative research. What do you think?"
Wang Hao was suddenly surprised.
This news was so sudden that it caught people off guard.
He thought for a while and said, "That depends on what technology and experimental data they can provide."
"The core of our experiment is node deployment and control. The follow-up may involve the technology of mixing multiple materials for experiments. The basic theory of the experiment can be exchanged, but the key technology is absolutely not."
"It will take a lot of energy and time for them to make breakthroughs in these two directions."
"In terms of anti-gravity research, after expanding the scale, it is impossible to achieve absolute secrecy. However, in the new field, we must grasp the absolute advantage in technology!"
Zhou Minhua nodded and said, "Professor Wang, you are an expert in this area. If you finally make a decision, whether it is to cooperate with them or exchange information, you still need to grasp the content."
"This is no problem." Wang Hao nodded seriously.
Regarding the update, I apologize again. After taking the medicine for a whole day, I feel much more comfortable in my teeth tonight. The pain period has finally passed... Tomorrow I will resume normal [-]D update.
(End of this chapter)
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