After the International Annihilation Theory Conference held in Sudong City, annihilation theory truly entered an era of explosion.
The ‘research on the boundary between two-point five-dimensional topological structure and three-dimensional space’ conducted by Wang Hao’s research group has, to a certain extent, confirmed the existence of the annihilation force at the theoretical level.
A certain microscopic force has a high possibility of realizing a unified field, which can naturally attract a large number of top scholars.
First of all, many top international universities have begun to accept the annihilation theory and hire scholars engaged in research in related fields.
Many institutions have established research groups dedicated to annihilation theory.
Some scholars engaged in research in other fields have also begun to study annihilation theory.
When a large number of top scholars participate in a theoretical research, there will naturally be a series of results.
First of all, in terms of theory, Paul Phil-Jones used the basis of the existence of annihilation force to complete the demonstration of part of the supersymmetry problem. Then Professor Brown of Harvard University completed the supersymmetry with a 63-page argument.
The rest of the question.
Professor Swanstadt of the Norwegian Academy of Sciences completed the demonstration of decay based on the annihilation force. To a certain extent, he analyzed the relationship between the annihilation phenomenon and particle decay.
This is a major breakthrough in the basic theory of nuclear physics and is considered a revolutionary progress in the field of nuclear physics.
Along the way, there were many scholars who conducted research related to the annihilation theory from various angles such as quantum physics, condensed matter physics, and cosmology.
Among them, Wang Hao's research group achieved the greatest results. He led the research group to complete a breakthrough physical demonstration--
Demonstration of electronic properties.
Demonstration of the properties of electrons is naturally inseparable from electromagnetic force. To demonstrate the relationship between electron charging characteristics and annihilation force, to a certain extent, the annihilation force is connected with electromagnetic force to explain the origin of electromagnetic force.
The research on "Electromagnetic Force Demonstration" is just the beginning, but the most important thing is that any research has started.
A good start is half the battle, and the same is true in the academic field.
After Wang Hao published the results of the "Electron Behavior Demonstration", many physicists have devoted themselves to studying the relationship between the annihilation force and the other three microscopic forces.
Just like the evaluation of Bob Brooke, a famous physicist on the Nobel Committee, "In this direction, there may be dozens of Nobels and Fields in the future."
"Demonstrating the annihilation force and the other three microscopic forces is an innovative breakthrough in physics. Its role in promoting science and technology and physical research may not be weaker than the role played by Newton and Einstein in astronomy."
For a time, the theory of annihilation flourished.
Technology field.
There have been many scientific and technological breakthroughs related to superconductivity and antigravity in the world.
Among them, the anti-gravity maglev train that attracted the most attention was successfully tested. Liao Guangyuan led the team to successfully develop the anti-gravity maglev train. The train's top speed exceeds 1,200 kilometers per hour.
The most important thing is that the operation and maintenance costs of the train are lower than those of ordinary maglev trains.
Now we have entered the stage of demonstrating the construction of anti-gravity maglev main lines. The disputes only exist in the construction distance and high construction costs. There are basically no technical obstacles.
This project has attracted international attention because it involves anti-gravity technology and will be the first official application of anti-gravity technology.
There has been a lot of discussion in the world about this, "China is already far ahead in the field of anti-gravity."
"It is said that the anti-gravity technology of the anti-gravity maglev train chassis can reduce weight by more than 85%, which is really amazing."
"The train only needs to start and it can float. If it can really be built in the future, I want to go to China to really experience it."
"That's really levitation!"
"The latest maglev built in Japan can only reach a speed of more than 600 kilometers per hour. It cannot levitate at all in the initial stage. It is only possible when the speed exceeds 100 kilometers."
"That's anti-gravity technology, of course it's different..."
"However, American's research has also made breakthroughs. In the field of superconducting applications, American's technology is more advanced..."
The last sentence talks about another major study that is of international concern--
Superconducting power storage device.
Superconducting power storage technology is commonly used as superconducting electromagnetic energy storage technology, referred to as SMES. SMES technology has been around for a long time. Initially, Ebaco Service Company and Bechtel National Company provided Americen Defense-
A new type of electrical energy storage technology studied by the Ministry of Strategic Planning Bureau and Nuclear Weapons Agency.
Later, many countries conducted related research.
Before there are suitable high-temperature superconducting materials, SMES technology can only exist in laboratories and cannot be applied in real applications. The reason is of course very simple, that is, the unacceptably high cost.
After the emergence of semi-topological theory, many institutions began to study high-temperature superconducting materials. With the development of superconducting material technology, some very practical high-temperature superconducting materials have also appeared.
SMES technology has naturally been studied by many countries and large institutions.
In terms of SMES technology, Amrican has a complete system. At the same time, they have also made breakthroughs in superconducting research. They have developed a high-temperature superconducting material with a critical temperature of 113K, and they claim to have ultra-high current carrying capacity.
'.
Then there was naturally a breakthrough in SMES technology.
After using new materials, they announced that SMES technology can be applied to manufacture facilities for storing electricity, and are preparing to establish an SMES power storage base in Texas.
A spokesperson for the project claimed that "the power storage base using SMES can store up to more than half a month's worth of electricity for the state of Texas."
This is of course an exaggeration.
But no matter how arrogant they are, the SMES power storage base they plan to build will be able to supply Texas for a day, and the electricity consumption for a day must be calculated in units of "one billion kilowatt hours"
of.
If the power supply lasts for several days, the calculation unit of the total stored electricity will become ‘tens of billions of kilowatt hours’.
Therefore, international public opinion generally believes that the SMES power storage base that American is planning to build may have a maximum storage capacity of more than 10 billion kilowatt-hours.
For a time, the world was shocked.
The civilian use of SMES technology is very amazing, because electricity is generally produced and used at any time, and excess electricity that is not used is wasted.
If there is less production, there will naturally be places where it is not used and the power will be cut off.
Because of this, the extra electricity produced every year will cause a huge waste. Not only is it a waste of energy, it will also have a great impact on the environment.
If large-scale power storage devices can be built, power production and use can be balanced, which is extremely valuable for both resource use and environmental protection.
To put it simply, you no longer need to worry about insufficient power supply, and you no longer need to worry about the waste caused by excess power supply.
Energy is the lifeblood of human life and technological development.
American is at the forefront of superconducting power storage technology and has suddenly attracted the attention of the world.
In comparison, the construction of anti-gravity maglev trains seems to have become a "scenic waste".
Because the anti-gravity maglev train can be replaced by other trains, the power storage device cannot be replaced.
…
The domestic superconducting power storage technology research and development project has been officially launched for more than two years, but there is still no result.
There has been no news related to international research and development before, and the superconducting power storage technology research and development team has not felt pressure yet, and even said that they have never received attention.
It's different now.
It is generally recognized internationally that China has the most high-end superconducting materials.
Since the establishment of Superconducting Materials Industrial Company, seven new high-temperature superconducting materials have been launched, with the lowest critical temperature reaching 121K and the highest reaching 149K.
Among them, there is a copper-based superconducting material with a critical temperature of 134K, named 'CW004', which has a very high current carrying capacity.
‘CW004’ has been officially sold to domestic scientific research teams and large industrial companies. Naturally, it has also been acquired by many international scientific research teams. Their research is positive on the performance of ‘CW004’.
American's Behnke Company manufactures a superconducting material with a critical temperature of 113K, which is claimed to have "extremely high current carrying capacity." However, it is generally believed internationally that its performance cannot keep up with "CW004".
Here comes the problem.
With such high-end superconducting materials, why has the domestic superconducting power storage technology research and development team still been unable to perfect the power storage technology?
For a time, the domestic superconducting power storage technology research and development team felt tremendous pressure.
Pressure from public opinion, pressure from superiors, and pressure from scientific research, all put together, made the head of the research team, Pan Dong, almost worried that all his hair would fall out.
In an office.
Pan Dong, who was over 50 years old, stared at the device topology diagram on the computer without moving his eyes. After a long time, he sighed, "I still can't find the problem!"
Deng Jianqiang sat next to him and said depressedly, "There are a lot of problems, and they need to be solved one by one. Lao Pan, listen to what is said outside? Why can't we develop a power storage device even though we have the best materials?"
"Isn't this a joke? Does SMES technology have anything to do with the quality of materials?"
"It doesn't matter at all!"
He sighed, "What about the same thing with Amrican? They already have perfect technology, but they lack materials. Once there is a breakthrough in materials, they can naturally build it directly."
"This is still a material they have researched themselves. It would be unimaginable if they could obtain 'CW004' in large quantities..."
Pan Dong also felt very depressed after hearing this.
Sad!
After the research team was formally established, they began to study SMES technology, with the goal of manufacturing SMES power storage devices.
SMES technology, its basic theory is publicly available internationally, but knowing the theory is one thing, and creating the corresponding device is another.
The SMES power storage device is a large-scale, sophisticated high-tech product, and various problems will be encountered during the research and development process.
After the model product was manufactured, a series of failures and problems occurred.
At the beginning of their research, their progress was relatively fast, and they also had a foundation in related fields.
For example, the Institute of Electrical Engineering of the Academy of Sciences provides high-temperature superconducting energy storage coil technology.
However, superconducting energy storage coil technology is only one technology in SMES power storage devices. Since the model device was built, a series of problems have been discovered.
Now they are constantly solving problems.
Pan Dong shook his head depressedly and said, "There are still not enough talents!"
"yes!"
Deng Jianqiang also said, "If they were all like your student Xiaoliang, research would be much easier."
Hearing Deng Jianqiang talk about his student "Xiao Liang", Pan Dong couldn't help but smile. Xiao Liang, whose name is Liang Jingye, is his best student.
During her PhD studies, Liang Jingye followed him to do research on SMES power storage devices. Now that Liang Jingye has just graduated, she has become one of the core members of the project team and has been unanimously recognized by the project team.
"Xiaoliang is indeed very good." Pan Dong said with a smile, "How can every one of them be Xiaoliang? When it comes to understanding the entire device, I feel that none of us can compare to Xiaoliang."
"After all, we are doing overall research control. Xiaoliang is really investing in technology manufacturing, which is different."
Deng Jianqiang said nonchalantly.
As the two talked, the topic quickly returned to technical issues.
"The most critical thing is the quench protection system. More than half of our problems are caused by the system." Deng Jianqiang said.
"yes."
Pan Dong followed, "However, we have corrected this system countless times, but it is still not perfect. This problem..."
He shook his head as he spoke, feeling that he couldn't do it anymore.
Deng Jianqiang made a suggestion, "Should we apply for help from other teams? I feel that we can't improve it ourselves."
"Other teams...this..." Pan Dong hesitated for a moment.
If he applies to allow other teams to intervene in the research, he, the head of the research group, will definitely be affected, and maybe his superiors will decide to change the person in charge.
This kind of decision that affects the individual must be carefully considered.
Pan Dong thought about it and suddenly said, "How about asking Academician Wang Hao?"
"Academician Wang Hao?" Deng Jianqiang was stunned when he heard this.
"yes!"
The more Pan Dong thought about it, the more reliable he felt. "Although Academician Wang Hao mainly does theoretical research, he has also done many application projects. There are too many factors involved in the issue of quench protection. Maybe Academician Wang Hao can provide some new ideas."
.”
"This kind of... we have to apply to our superiors, right?" Deng Jianqiang said hesitantly, "Our technologies are all confidential, even Academician Wang Hao..."
"Apply, just apply!" Pan Dong said, "I feel that asking Academician Wang Hao is more reliable than asking other teams. Even if Academician Wang Hao can't do anything, we have nothing to lose, right?"
"Right……"
"When the application is approved, who will be sent?"
"Xiaoliang, Xiaoliang is the most suitable. She knows the problem best."
"Okay, just Xiaoliang!"
…
Saikai University.
Wang Haocai just participated in a large meeting of the aviation group.
Anti-gravity technology is very important and will definitely play a huge role in the aerospace field in the future.
Because of this, the Aviation Industry Corporation of China and Wang Hao's anti-gravity research group reached a cooperation.
An important topic at this large-scale meeting is to determine relevant cooperation. The aviation group provides one billion yuan in funding every year to support the anti-gravity research group in developing anti-gravity-related flying devices.
The anti-gravity research team alone will certainly not be able to create a flying device.
In fact, the aviation group has previously sent a specialized technical team to the anti-gravity team to inspect related technologies and demonstrate the possibility of cooperation.
Their ultimate goal is to develop a flying device with anti-gravity technology.
Wang Hao was also very interested in this. After he returned to Xihai University, he immediately went to the Antigravity Behavior Research Center.
In the past year, antigravity-related research has also made breakthroughs. They used new materials to create an ultra-high-strength lateral force field of 96%.
When Wang Hao came to the research center, a technical demonstration meeting was going on inside. The topic was "anti-gravity flight technology". To put it bluntly, it was how to achieve the purpose of using anti-gravity technology to achieve the purpose of making the device fly.
Wang Hao entered through the back door and heard Ke Jinnan, the technical representative of the aviation group, making a relevant report, talking about the most critical technical deficiency, "power!"
"It is impossible for us to generate high-power power on an aircraft, but how to supply high-power electricity?"
"Our latest demonstration is that we can try to use a hybrid technology, which can use low-power power generation and aeroengines to create a new type of flying device. Anti-gravity technology can reduce weight..."
Wang Hao didn't even want to hear the rest of the content.
Hybrid?
If aero engines are used to build aircraft, there is no need for hybridization at all.
The aircraft manufactured with the support of aviation engines are now quite advanced.
Even if anti-gravity technology is added, what will happen? It still relies on the air flow of the aircraft to make the aeroengine work.
If you want to build an anti-gravity aircraft, it will naturally be dominated by anti-gravity technology to achieve a completely new way of flying.
‘Hybrid’ is simply ridiculous!
But how to solve the power problem? With current battery technology, it is still possible to manufacture a drone and create a large-scale manned aircraft...
impossible!
"Battery is the best solution, but ultra-high-power batteries can only be supported by batteries with superconducting electromagnetic technology."
"However, Pan Dong's team has not completed SMES power storage for two years, let alone shrinking large devices into batteries..."
Wang Hao thought and shook his head.
At this time, the phone suddenly vibrated.
He greeted the others and went out to answer a phone call. It was from someone from a higher-level department. He said that the SMES power storage research team had sent a special team to consult him on a technical research issue?
"The team leader from the SMES research group is named Liang Jingye?"
"Okay... no problem, just come." Wang Hao thought for a while and agreed. The other party had a research question, and he really had nothing to lose by listening to it.
More importantly, he feels that the power problem of anti-gravity flight devices must be solved by developing ultra-high-efficiency batteries.
Therefore, he is also very interested in SMES power storage technology!