Chapter 343: Characteristics of F-rays, Application Conference, Riemann Hypothesis is just a premise?
"An anti-gravity aircraft at an altitude of tens of thousands of meters...is there any countermeasures?"
"When the time comes, there will be..."
"Or, installing air-to-air missiles on Kongjian-2? Isn't that a routine operation?"
"Academician Wang, do you mean that you are already studying this technology? Is it anti-missile or anti-aircraft artillery?"
"It's impossible for artillery to shoot that high, right?"
"Don't the Rocket Academy already have a technology for correcting warhead trajectories? It should be related to Academician Wang. Now it may be a cooperation with the Rocket Academy?"
After hearing Wang Hao say that there were countermeasures, several military officers and senior technicians started discussing in surprise.
Wang Hao did not give a detailed explanation, not because it involved confidentiality, but mainly because the research results have not yet been determined, and the application is not 100% guaranteed.
The Antigravity Behavior Research Center continues to conduct relevant experiments, and some properties of F-rays have been determined.
The first is to be able to control the direction and determine that the F-ray has the characteristics of a strong annihilation force field, and its intensity is relatively high.
In addition, F-rays propagate instantaneously.
What is certain is that the propagation speed is at least close to the speed of light. Due to current technical problems, the coverage distance of F-rays is limited, and no method has been found for detection.
The third characteristic is that it will not be affected by materials in the transmission process.
This is mainly because F-rays are not energy or matter, but a field force, just like a magnetic field or an electric field. The size of the field force will not be affected or changed just because there is matter in it.
However, F-rays are not invincible and can still be blocked. High magnetic fields can deflect F-rays.
F rays can be understood as stronger annihilation force fields with higher intensity and instantaneous bursts. They will naturally have the characteristics of strong annihilation force. First of all, they can produce strong magnetization in matter.
Secondly, it can instantly increase electronic activity, which will directly paralyze electronic devices.
In addition, based on the fact that strong annihilation force will increase the activity of particles, F-rays are likely to have the effect of igniting nuclear reactions.
Not only nuclear fission reactions are included, but nuclear fusion may also be ignited if conditions permit.
If the nuclear reactor being targeted is in operation, F-rays may rapidly intensify its reaction effect.
The last point has not been directly confirmed by experiments. It is only an inference from theoretical research. However, Wang Hao is still very certain about the conclusion. He just does not know the specific effect and needs real experiments to test it.
Of course, this kind of experiment is not easy to do.
Wang Hao did not continue following the topic, and the relevant discussion could only stay at the discussion.
The next step was to continue to understand the test situation of Kongjian-2. Wang Hao had a very detailed understanding of various data and equipment operation conditions.
Then he made sure there was no big problem.
Some minor problems still exist, but they are encountered normally during testing, and we can find ways to solve them.
In the process of getting to know each other, Wang Hao also talked with others about the upcoming celebrations.
The responsible Air Force general explained the display process of Kongjian-2, "When the time comes, Kongjian-2 will stay above the clouds. When the scheduled time comes, Kongjian-2 will fall vertically. At the right time,
Fall to the predetermined height."
"Then it will be a straight flight until it leaves the event venue..."
He was also in high spirits when talking.
Wang Hao looked forward to it very much, "This design is very good. It falls from the sky. It is different from other aircraft and can play a role in demonstrating technology."
"Yes, that's what we think."
"The purpose of the military parade is to display military technology and have a deterrent effect on the international community. By the way, it can also boost morale. Vertical ascent and descent are the biggest features of Kongjian-2's flight."
"This is the result of our discussion together and approved by our superiors..."
…
After staying at the air force base in Hucheng for two days, Wang Hao took a military vehicle to the capital.
After arriving in the capital, Wang Hao went to the arranged hotel to rest, and the next day he went to the conference center of the Olympic Village, where a cutting-edge technology application and theory conference organized by the Ministry of Science and Technology was to be held.
In fact, the theme is the application and theoretical research of superconductivity.
‘Application’ is placed first, and naturally what is emphasized is application. The main content is also to explore the application of superconducting related technologies, so as to promote new technologies and drive economic development.
This is the ultimate goal.
The ultimate goal of any valuable scientific and technological field is to drive economic development, create more jobs, and create higher profits.
Many people who came to the meeting were professionals in applied science and technology, including officials from the Ministry of Commerce and representatives of large enterprises.
With the innovation of superconducting materials, superconducting technology has penetrated into various fields, the most important of which are electric power and manufacturing.
In the field of electric power, it goes without saying that superconducting technology is directly related to electricity. In the process of power supply, many parts use superconducting technology in order to reduce energy losses.
In addition, the construction of superconducting power storage devices has also begun, and it is expected that initial applications will be available next year.
Superconducting technology is also widely used in manufacturing.
For example, the steel industry.
Superconducting technology can create a higher and more stable magnetic field, which can be applied to the steel production process. Wuhan Iron and Steel Co., Ltd.'s double-kun steel rolling production line requires a stable high magnetic field to reduce the defective rate of steel produced.
Superconducting technology can also be used in many fields, including medical equipment, transportation, aerospace technology, etc.
The meeting of the Ministry of Science and Technology also discussed the application of anti-gravity technology.
Now the biggest application of anti-gravity is in the manufacturing of airship series aircraft and anti-gravity maglev trains. Other major applications are in the exploration stage.
This is mainly because the most advanced anti-gravity technology is still being settled confidentially.
Ordinary companies can only use public anti-gravity technology to create 50% anti-gravity field and 70% lateral field.
To realize the application of this level of technology, a very huge investment is required for application technology research and development.
Wang Hao was not too concerned about the application of superconducting technology and anti-gravity technology. He just listened to the meeting, mainly waiting for the subsequent theoretical stage.
The main reason he was invited to participate in the conference was to lead the research direction of strong annihilation force.
In the direction of the strong annihilation force field, Wang Hao is the only one who has the say, because only his team has created the strong annihilation force field.
This content waited until the next day.
In the morning, the conference entered the theoretical stage, and most of the participants were scholars.
Wang Hao sat on the rostrum and gave some explanations on the research on strong annihilation force. The contents were all parts that had been made public or known to most people.
For example, superimposing force fields.
For example, mixing high-pressure materials creates an anti-gravity field before entering a superconducting state.
After that, Wang Hao did not talk about the experimental research related to the strong annihilation force field, but talked about the basic research on the annihilation theory, "Whether it is a strong annihilation force or a weak annihilation force, in the process of research, we must
Theory-based.”
"The current annihilation theory is far from perfect."
"Even the analysis of the weak annihilation force, that is, antigravity, is only based on experimental findings, rather than a real underlying explanation from theory."
"This also leads to a problem. We cannot use theory to infer experiments. We can only infer theories based on experiments. We don't know what the next experiment will find."
"This is a big problem."
Wang Hao said very seriously, "If we always aim at experiments, one day the research will reach a bottleneck. We don't know what to do next, so we can only try our luck to conduct experiments."
"In the past hundred years, most research related to superconductivity has been at this stage..."
Before the emergence of the 'superconducting semi-topological theory', superconducting-related technologies had caught up with the theory, which also caused superconducting-related research to stagnate for decades.
Even if some new superconducting materials are developed, the improvement is very small. It can be said that it is almost meaningless and is just a scientific number.
What Wang Hao said surprised many scholars.
In recent years, Wang Hao has been engaged in experimental physics research related to antigravity and superconductivity, as well as some applied science and technology applications.
Anti-gravity technology and superconducting batteries are the representatives. Together, they have created an anti-gravity aircraft that shocked the world.
This is not just the impression of scholars, but also because Wang Hao has not published any theoretical results internationally.
Now Wang Hao suddenly emphasizes theory, which is surprising, but what he said is convincing. The annihilation theory is only a new theory, even if it has been confirmed and is called "annihilation physics" by some institutions
, but it is far from perfect.
Of course, an imperfect theory cannot support the analysis of technical directions.
When they saw Wang Hao talking eloquently, many scholars in the audience were thinking about something else. They felt that Wang Hao's 'theoretical' era had passed.
This is mainly because Wang Hao has not had any theoretical achievements for a long time, but has devoted all his energy to technical application research.
"I guess Academician Wang doesn't have much energy to spend on theoretical directions!"
"Whether it is anti-gravity technology or research related to strong annihilation force, it requires a lot of energy. How can he grasp theory and technology at the same time?"
"He is too important to the country. Kongjian-2, including experiments with strong annihilation power, are the main directions..."
"The future of theory still belongs to young people!"
Some scholars said that they were young people, but when they looked at Wang Hao on the stage, they felt very strange.
Wang Hao is not very old either!
The 'young people' they think of are probably older than Wang Hao.
In fact, in recent years, a large number of outstanding young scholars in mathematics and theoretical physics have emerged in China, and they have also contributed a lot of achievements.
This is mainly because of support at the national level.
When a certain aspect of research attracts attention, it will naturally receive support from the national level. The method of support is also very simple, which is to "throw money".
For example, increasing support for basic mathematics research will support many mathematics research projects, and it will become easier to apply for related projects.
For example, increasing talent allocations for pure mathematics and theoretically weak areas will allow more mathematics and physics researchers to engage in basic research work, rather than being forced to turn to other directions.
The number of positions in mathematics and physics research will also increase, and there will be more outstanding mathematics and physics researchers.
While the scholars in the audience were thinking, Wang Hao ended his speech and returned to his seat.
Professor Yu Haibin of Shuimu University is sitting next to Wang Hao. He is in his forties, which is considered very young. At the same time, he also benefited from the country's support for mathematical theoretical research. The project he applied for was approved and he got a five-year-old.
One hundred thousand financial support.
Yu Haibin talked about his research with Wang Hao, "Academician Wang, I have a very excellent student named Liu Qing. We are doing research on the Riemann Hypothesis together."
"Riemann Hypothesis?"
Wang Hao immediately became interested when he heard this, "Is there any progress?"
Yu Haibin smiled proudly and continued, "Our latest results were published in Acta Mathematica Sinica."
He then gave a professional explanation, "We use the method of analytic number theory to study the hyperbolicity of Jensen polynomials..."
"Finally it was proved that this is true for all 'd≥1 and sufficiently large n', and incidentally it was also proved that this is true for 8≥d≥1 and all n≥0..."
Wang Hao listened patiently.
Although he had not done in-depth research on the Riemann Hypothesis, he still understood it after hearing it briefly.
To put it simply, Yu Haibin and his students continued Jensen's analysis in the 1920s and proved a proviso.
This chapter is not finished yet, please click on the next page to continue reading the exciting content! This progress is indeed good.
On the surface, it sounds like progress has reached the level of the twin prime conjecture (Zhang Yitang proved to 'weaken' the twin prime conjecture). In fact, the distance is still a little worse. In addition, a lot of number theory conjectures are stuck at the final level. If you want to
I don’t know how long it will take to truly prove it.
Perhaps it will never be proven.
Perhaps, others will use other methods to prove, instead of slowly 'getting closer to the proof' from one direction.
Of course.
This does not deny the research contribution of Yu Haibin and his students, otherwise it would not have been published in the Journal of Mathematics, which shows that it is recognized by the mathematics community.
Yu Haibin said that he was indeed somewhat proud of his research. He also asked Wang Hao, "Academician Wang, are you doing any research in the direction of annihilation theory?"
Other people around also looked over.
Wang Haodao, "I am studying the most basic mass point problem, hoping to mathematically shape the structure of mass points."
"ah?"
Yu Haibin was invited to attend a conference on annihilation theory, so he naturally knew the theory of annihilation very well.
He could understand what Wang Hao was talking about and immediately asked, "Is there any progress?"
"No big progress."
Wang Hao pursed his lips and shook his head, then said, "But I have found the direction. I think we should use the Riemann Hypothesis and some kind of multidimensional equation as the mathematical carrier of mass point construction."
"This is a good idea."
"really."
Others also commented, "Using the Riemann Hypothesis and certain multidimensional equations as carriers, we can construct and express the mass point."
"It may involve very complicated and unsolvable problems..."
"For Academician Wang, what problem cannot be solved?"
"Right……"
Yu Haibin suddenly asked, "Academician Wang, are you planning to use the Riemann Hypothesis as a carrier? If you can successfully complete the shaping and complete the research mathematically, you must prove the Riemann Hypothesis, right?"
Wang Hao nodded, "I'm not sure whether to prove the Riemann Hypothesis first or to shape the mass point first. I prefer the latter. It can be assumed that the Riemann Hypothesis is correct."
"On this basis, the mass point is shaped. Physical theory does not completely require complete mathematical proof."
"But if this path doesn't work, I might consider studying the Riemann Hypothesis..."
He said it very calmly.
Others were not calm after hearing this. They mentally analyzed the difficulty of quality point research and just discussed it with each other without having any idea.
Now I know.
The premise of this research may be to prove the Riemann Hypothesis?