After the conclusion of the International Conference on the Theory of Annihilation held in the city of Eastern Jiangsu, the theory of annihilation has truly entered an era of explosion.

Wang Hao's research group has done the boundary study of two-point five-dimensional topology and three-dimensional space, and to a certain extent, the existence of annihilation force has been determined at the theoretical level.

A definite microscopic force, a field that is likely to achieve great unification, can naturally attract a large number of top scholars.

First of all, many top international universities have begun to accept the theory of annihilation and hire scholars engaged in research in related fields.

A number of institutions have set up research groups dedicated to the theory of annihilation.

Some scholars in other fields have also begun to work on annihilation theories.

When a theoretical study involves a large number of top scholars, it naturally leads to a series of results.

First of all, on the theoretical side, Paul Phil Jones used the basis of the existence of annihilation force to complete part of the supersymmetry problem, and then Professor Brown of Harvard University completed the rest of the supersymmetry problem with a 63-page argument.

Professor Swanstadt of the Norwegian Academy of Sciences completed the demonstration of decay on the basis of annihilation, and to a certain extent, analyzed the relationship between annihilation and particle decay.

This is a major breakthrough in the basic theory of nuclear physics and is considered a revolutionary advance in the field of nuclear physics.

In the process, many scholars have made relevant research on annihilation theory from various perspectives of quantum physics, solidification physics, and cosmology.

Among them, Wang Hao's research group has achieved the greatest results, and he led the research group to complete a breakthrough physical demonstration of electronic behavior.

Argument for electronic properties.

Naturally, it is inseparable from electromagnetic force, and the relationship between the charged characteristics of electrons and the annihilation force is to a certain extent, which is linked to the electromagnetic force by the annihilation force to explain the root cause of the electromagnetic force.

The study of the electromagnetic force argument is only the beginning, but the beginning of any research is the most important thing.

A good start is half the battle, and the same is true in the academic field.

After Wang Hao published the results of the "electronic behavior demonstration", many physicists devoted themselves to the study of the relationship between the annihilation force and the other three microscopic forces.

Just like the evaluation of the famous physicist Bob Brooke of the Nobel Committee, "In this direction, there may be dozens of Nobels and Fields in the future."

"The argument that annihilation and the other three microscopic forces are innovative breakthroughs in physics, and their contribution to science and technology and physical research may be no weaker than the work of Newton and Einstein in astronomy."

For a time, the theory flourished.

Science and technology.

There have been many scientific and technological breakthroughs related to superconductivity and anti-gravity in the world.

Among them, the most concerned anti-gravity maglev train was successfully tested, and Liao Guangyuan led the team to successfully face the anti-gravity maglev train, with a maximum speed of more than 1,200 kilometers per hour.

The most important thing is that the construction, operation and maintenance costs of the train are much less than that of ordinary maglev trains.

Now it has entered the stage of demonstrating the construction of the anti-gravity maglev trunk line, and the controversy only exists in the distance of construction and the high construction cost, and there are basically no technical obstacles.

The reason why this project has attracted international attention is that it involves anti-gravity technology, and it will be the first official application of anti-gravity technology.

In this regard, there is a lot of discussion in the world, "In the field of anti-gravity, China has been far ahead."

"It is said that the anti-gravity technology of the anti-gravity maglev train chassis can reduce the weight by more than 85 percent, which is really amazing."

"The train only needs to start and float to run, and if it can really be built in the future, I want to go to China and really experience it."

"That's really levitation!"

"Japan's latest maglev has a speed of only more than 600 kilometers per hour, and it cannot be suspended at all at the initial stage, and it is possible to reach a speed of more than 100 kilometers."

"That's anti-gravity technology, of course it's different......

"But there are also breakthroughs in Amriken's research.

In the field of superconductivity, it is still the high-end of Amriken's technology......

The last sentence refers to another major research project of international concern: superconducting energy storage devices.

Superconducting energy storage technology routinely uses superconducting electromagnetic energy storage technology, abbreviated as SMES, SMES technology has been around for a long time, and it was originally a new type of electrical energy storage technology researched by Ebako Services and Becktel National for Ameriken's Strategic Planning Bureau and the Nuclear Weapons Agency.

Since then, many countries have conducted relevant studies.

In the absence of suitable high-temperature superconducting materials, SMES technology can only exist in the laboratory and cannot be truly applied, for the simple reason that it is unacceptably high.

After the emergence of semi-topological theory, many institutions have begun to study high-temperature superconducting materials, and with the development of superconducting material technology, some very practical high-temperature superconducting materials have also appeared.

SMES technology is naturally studied by many countries and large institutions.

In terms of SMES technology, Amricon has a complete system, and they have also made a breakthrough in superconductivity research, developing a high-temperature superconducting material with a critical temperature of 113K, and is known as having ultra-high current carrying capacity.

Then there was a breakthrough in SMES technology.

After using new materials, they announced that SMES technology could be applied to the manufacture of facilities that store electricity, and are preparing to establish an SMES storage base in Texas.

A spokesperson for the project claimed, "The SMES power storage base can store up to half a month's worth of electricity for Texas."

This is, of course, somewhat exaggerated.

But even if the water in the speech is no longer hit, the SMES power storage base they are going to build will be no problem for Texas to use for one day, and the electricity consumption for one day must be calculated in 'billions of hours'.

If the power supply time reaches a few days, the computing unit of the total stored electricity will become '10 billion kilowatt hours.'

Therefore, international public opinion generally believes that the maximum storage capacity of the SMES power storage base that Amriken is preparing to build may exceed 10 billion hours.

For a time, the world was shocked.

The civilian use of SMES technology is a very amazing thing, because electricity is generally manufactured and used at any time, and the power that is not used is wasted.

If you make less manufacturing, there will naturally be places where you can't use it and the power will be cut off.

Because of this, the extra electricity produced every year is a huge waste, not only wasted energy, but also has a great impact on the environment.

If large-scale power storage installations can be built, a balance can be achieved between the production and use of electricity, which is extremely valuable for both resource use and environmental protection.

To put it simply, there is no need to worry about insufficient power functions and waste caused by excess power supply.

Energy is the lifeblood of human life and the development of science and technology.

In terms of superconducting energy storage technology, American is at the forefront and has attracted the attention of the whole world.

In comparison, the construction of anti-gravity maglev trains seems to have become a 'scenic chicken ribs,'.

Because the anti-gravity maglev train can be replaced by other trains, and the power storage device cannot be replaced.

The domestic superconducting energy storage technology research and development project has been officially carried out for more than two years, but there is still no result.

There was no news about international research and development before, and the superconducting energy storage technology research and development team has not yet felt the pressure, and even said that they have never received attention.

Now it's different.

It is generally recognized internationally that China has the most high-end superconducting materials.

Since its establishment, Superconducting Materials Industry has launched seven new high-temperature superconducting materials, of which the lowest critical temperature reaches 121 K and the highest reaches 149 K.

Among them, there is a copper-based superconducting material with a critical temperature of 134 K, called C004', which has a very high current carrying capacity

。

'C004 has been officially sold to domestic scientific research teams and large industrial companies, and has naturally been obtained by many international scientific research teams, and their research has a positive attitude towards the performance of 'C004.

Ameriken's Beenke manufactures superconducting materials with a critical temperature of 113K, which is claimed to have an extremely high current carrying capacity, but it is generally believed that its performance will certainly not catch up with C004.

Here's the problem.

In the case of such high-end superconducting materials, why is the domestic superconducting storage technology research and development group still unable to improve the power storage technology?

For a time, the domestic superconducting energy storage technology research and development team felt huge pressure.

The pressure of public opinion, the pressure of superiors, and the pressure of scientific research, put the three together, so that Pan Dong, the head of the research group, was already worried about losing his hair.

in an office.

Pan Dong, who was over fifty years old, stared at the device topology diagram on the computer, his eyes did not even move, and it took a long time before 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 we have to solve them one by one. Lao Pan, do you listen to what is being said outside? Why can't we have the best materials but can't find a power storage device?"

"Isn't that a joke? Does it matter if SMES technology and materials are good or bad?"

"It's totally fine!"

He sighed, "Can Amriken do the same? They already have perfect technology, but they lack materials, and once there is a breakthrough in materials, they can naturally build them directly."

"This is still the material they naturally researched, and it is unthinkable if they can obtain 'C004' in large quantities......

Pan Dong also felt very depressed when he heard it.

Sad!

After the research group was formally established, they began to work on SMES technology, with the goal of manufacturing SMES energy storage devices.

The theory on which SMES technology is based is internationally disclosed, but knowing that the theory is one thing, and the manufacture of the corresponding device is another.

SMES power storage device is a large-scale, sophisticated high-tech product, and various problems will be encountered in the process of research and development.

When the model product is manufactured, a series of failures and problems occur.

At the very beginning of the 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 the technology for high-temperature superconducting energy storage coils.

However, superconducting energy storage coil technology is only one of the technologies in the SMES energy storage device, and a series of problems have been found since the model device was built.

Now they're constantly solving problems.

Pan Dong shook his head depressedly and said, "There are still not enough talents!"

"yes!"

Deng Jianqiang also said, "If we were all like your student Xiaoliang, the 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 Yejing, is his best student.

During his doctoral studies, Liang Jingye followed him to do research on SMES power storage devices, and now Liang Jingye has just graduated, and has become one of the core members of the project team, and has also been unanimously recognized by the project team.

"Xiao Liang, it is indeed excellent. Pan Dong smiled, "How can it be that each one is a small beam, when it comes to the understanding of the whole device, I feel that we are not as good as the small beam."

"After all, we are doing overall research control, and Xiaoliang is really invested in technology manufacturing, which is different."

Deng Jianqiang said indifferently.

As the two talked, the conversation quickly returned to technical issues.

"The most critical thing is the quench protection system, and more than half of our problems are in the system." Deng Jianqiang said.

"yes."

Pan Dong followed, "However, we have corrected this system countless times, and it is still not perfect, this problem ......

He shook his head as he spoke, feeling like he couldn't do it.

Deng Jianqiang made a suggestion, "Do you want to apply for other teams to help?" I feel like we're not perfect."

"Other Teams...... This ......" Pan Dong hesitated for a moment.

If he applies to let other teams intervene in the research, he, the head of the research group, will definitely be affected, and maybe the superiors will decide to change the person in charge.

This kind of decision, which affects the individual, must be carefully considered.

Pan Dong thought about it, and suddenly said, "Why don't you find Academician Wang Hao?"

"Academician Wang Hao?" Deng Jianqiang was stunned when he heard this.

"That's right!"

The more Pan Dong thought about it, the more reliable he felt, "Although Academician Wang Hao mainly does theoretical research, he has also done a lot of application projects, and there are too many factors involved in the problem of excess protection, maybe Academician Wang Hao can provide some new ideas."

"This kind of ...... We're going to apply to our superiors, right? Deng Jianqiang hesitated and said, "Our technology is all confidential, even if it is Academician Wang Hao......

"Apply, apply!" Pan Dong said, "I feel that asking Academician Wang Hao is much more reliable than finding other teams, even if Academician Wang Hao can't help it, we have nothing to lose, don't we?"

"Yes ...... too"

"When the application is down, who will be sent?"

"Xiao Liang, Xiao Liang is the most suitable, she knows the most about the problem."

"Alright, it's a little gircular!"

……

Seohai University.

Wang Hao has just participated in a large-scale conference of the aviation group.

Anti-gravity technology is very important and will certainly play a huge role in the aerospace field in the future.

Because of this, AVIC and Wang Hao's anti-gravity research group have reached a cooperation.

An important topic of this large-scale conference is to determine relevant cooperation, and the aviation group provides a basic funding of 1 billion yuan every year to support the anti-gravity research group to develop anti-gravity-related flight devices. A separate anti-gravity research group would certainly not be able to create a flying device.

In fact, the aviation group has sent a special technical team to the anti-gravity group to investigate the relevant technology 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, and after he returned to Xihai University, he immediately went to the Anti-Gravity Sex Research Center.

In the past year, there has also been a breakthrough in anti-gravity research, using new materials to create a 96% ultra-high strength lateral force field.

When Wang Hao came to the research center, there was a technical demonstration meeting going on, and the topic was anti-gravity flight technology, to put it bluntly, how to achieve it, 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, saying the most critical technical missing, "Power!"

"It's impossible for us to generate high-power electricity on an aircraft, but how can we supply high-power electricity?"

"Our latest demonstration is that we can try to use a hybrid technology, which can use low-power power generation with an aero engine to create a new type of flight device, and anti-gravity technology can reduce weight......

Wang Hao didn't even want to listen to the content of the following.

Hybrid?

If an aero engine is used to build an aircraft, there is no need for hybridization.

Now the aircraft manufactured with the support of aero engines are quite advanced.

Even if you add anti-gravity technology, what about it? It still relies on the air flow of the aircraft to make the aero engine work.

If you want to build an anti-gravity aircraft, it is natural to take anti-gravity technology as the leading factor to achieve a new way of flying.

'Hybrid, it's ridiculous!

But how to solve the power problem? The current battery technology supports the manufacture of a drone and can also be realized, creating a large manned vehicle

Aerocraft......

Impossible!

"Batteries are the best solution, but ultra-high-power batteries can only be supported by batteries with superconducting electromagnetic technology."

"However, Pan Dong's team, SMES power storage has not been completed for two years, let alone downsized and manufactured large devices into batteries......

Wang Hao shook his head thoughtfully.

At this moment, the phone suddenly vibrate.

He greeted the others, and then went out to answer a phone call, which was called by the personnel of the superior department, saying that it was the SMES power storage research team and sent a special team to consult him about a technical research problem?

"From the SMES Study Group? The group leader who came here is called Liang Jingye?"

"Good...... No problem, just come. Wang Hao thought about it and agreed, the other party had a research question, and he really didn't lose anything when he listened to it.

More importantly, he felt that the power problem of the anti-gravity flight device still had to be solved by developing an ultra-high-efficiency battery.

Therefore, he is also very interested in SMES power storage technology!