From University Lecturer to Chief Academician

The scene created by the gravitational field is very shocking.

Huang Mingkun lamented that he called it "great technology". He was a true soldier, and the first thing he thought of was to apply technology to weapons.

That is definitely a powerful high-tech weapon!

Ding Zhiqiang also feels that it is more "interesting" to use it in weapons. The application of gravitational field technology in the protection of aerospace carriers is only in the future.

There is not even an aerospace carrier now, so the protective application can only be imagined for the time being, but the use for destruction is real.

Wang Hao's idea is much simpler.

Whether it is used for weapons or for the protection of space carriers, technology needs to continue to be researched and enhanced to achieve better results.

After returning to the experimental base, Wang Hao immediately called everyone for a meeting and mainly explained three issues. "This experiment is of great significance and it also affirms our research results in the past period of time."

"Whether it is a technical level or a theoretical level, it has been confirmed."

"Theoretically, the first thing to determine is the linear characteristics of the experiment. We initially thought that the experimental results were not linear, but now it is proven that the experiment is indeed linear. There is a direct correlation between the gravitational field release distance and the electrical power."

"The second point is the interference effect of the semi-topological structure inside the material releasing S+ and S- waves."

"We used an ultra-thin layer of co-current material design, and the gravitational field strength and release distance created were significantly enhanced."

"Members of the theory group should summarize the above and add corresponding structural content to improve it."

Wang Hao paused and continued, "The third point is the most important, which is the control of the direction of the gravitational field."

When it comes to the issue of 'directional control', people in the theory group become serious.

Research on the release direction of the gravitational field has only just begun to produce results. By adjusting the direction of the main structure and the sheet, they have been able to control the propagation direction of the S wave after it is formed, but cannot control the diffusion direction after leaving the main area.

The propagation direction of the S wave after it is formed also represents the direction of the gravitational field.

The gravitational field they created in their experiment was directed downward.

Normally speaking, the direction of the gravitational field is downward, and the range covered by subsequent propagation will also extend downward, but in fact this is not the case. It can be found in experiments that the subsequent extension is still along the transmission direction of s+ and s- waves.

In the experiment, the main influence area of ​​​​S wave was formed within the range of 5500 meters to 5700 meters from the equipment, and a gravitational field with a magnification of 1.79 was created.

In this area, the gravitational field strength at each location is equal, forming a stable spatial expansion range.

There is no direct correlation between the direction of the gravitational field and the transmission direction of S+ and S- waves, because the formed space S wave can no longer be understood in terms of ‘wave’, and ‘S wave’ is just a code name for ease of understanding.

‘S wave’ is essentially a ‘space force field’.

It's like a reaction in which matter and antimatter cancel each other out. Because matter and antimatter have canceled each other out, there is no longer any theory of speed and mass, and naturally there is no so-called 'inertia'.

The energy formed will explode at the origin and spread around, regardless of the original directions of matter and antimatter.

S wave is not a wave, but a space force field, its essence is similar to the gravity of the planet.

When a stable space force field is formed, the subsequent impact of the force field is uncertain. It may be a pure energy burst, or the gravity of the planet will spread to all directions, or it may be a simple impact in one direction.

The s-wave produced in the experiment is the latter, and the impact direction is along the S+ and S- wave transmission directions, covering a range of 5800 meters to 7900 meters from the device.

"Is this a coincidence, or does the subsequent impact range always extend towards the s+ and s- wave range?"

"Or is the subsequent scope of influence controllable?"

After Wang Hao asked this question, everyone else started thinking about it and immediately responded with the correct answer.

The scope of subsequent impact is controllable!

Wang Hao did not let others explain their ideas, but continued, "This is the main direction of our next research."

"The reason why we study in this direction is because our theory is not perfect yet. If we can complete this part of the theory, we can greatly improve the technology, even qualitatively!"

People in the experimental group were a little confused, but people in the theoretical group understood.

In the past period of time, they have been conducting research simultaneously in both theoretical and technical aspects. On a purely technical level, research has reached a high point.

In other words, it is difficult to improve the equipment based on the existing theory. Without theoretical support, it is impossible to simply study the main structure or the problem of co-directional currents to make much progress in technology. promote.

The intensity of the gravitational field created now is 1.79 times, and the release distance is 5,500 meters. Even if the technology is further improved, the maximum intensity cannot exceed twice, and the release distance cannot exceed 10,000 meters.

If you want to break through the above two values, you must continue to improve the theory.

Of course there are other ways.

For example, it is to find another material with better performance than β-CWY-137 material.

Obviously, breakthroughs in materials are more difficult than perfecting theory and technology. Without theoretical support, finding new materials depends entirely on luck, and it seems hopeless.

…

The study of the subsequent influence direction of the gravitational field is still very important.

This is not only related to theoretical issues, but also the control of the direction of the gravitational field. The stable central area of ​​the gravitational field they created is only about two hundred meters, and the subsequent influence range exceeds two kilometers.

The subsequent impact range is much larger than the stable central area, the linear difference is up to ten times, and the volume difference is even greater.

This is like a nuclear bomb explosion. The central area of ​​the explosion is not large, but the energy burst affects a large area.

Only by mastering the technology of controlling the direction of the explosion can we better master the gravitational field technology without causing a series of problems due to the uncontrollable scope of influence.

Wang Hao takes research very seriously.

He knows that the research on directional control is a breakthrough point. Being able to control the direction of subsequent effects can lead to great breakthroughs in theory and technology.

Research is also not easy.

They already have a certain theoretical foundation, but experimental detection is still a big problem.

For example, currents in the same direction release s+ and s- waves, but neither wave can be directly detected, and their properties have no concept at all.

According to international physics standards, s+ and s- waves are still just theories. They cannot be determined directly because they cannot be directly detected. However, Wang Hao received correct feedback and determined them directly. They do not need to rely on international physics standards to judge. .

That doesn't make any sense at all.

The next step of research is to conduct theory and experiment simultaneously. Wang Hao is more focused on the architecture of the underlying equipment and uses the architecture of the underlying equipment to connect the theory. He hopes to find a new breakthrough point.

Unfortunately, there has been no progress for half a month.

If it weren't for the correct feedback from the system, Wang Hao would even think that his idea was wrong because they couldn't find a breakthrough point at all.

So does everyone else.

Whether it is at the theoretical or experimental level, when no breakthrough point can be found, some people even believe that the subsequent impact area is the extension of the S+ and S- wave directions, and there is no other controllable method.

Of course, Wang Hao is still very authoritative.

For example, He Yi never questioned Wang Hao. He felt that since Wang Hao said it, it must be right.

Qian Hongyu privately mentioned that "maybe the direction is the extension of the S+ and S- wave directions", He Yi said clearly, "Professor Qian, it is good to have your own ideas, but when your ideas conflict with Academician Wang When the time comes, don’t hesitate, kill your thoughts, and think along Academician Wang’s train of thought!”

Qian Hongyu couldn't understand it at all.

Doesn’t scientific research require the courage to question authority? Isn't one of the purposes of learning to have one's own judgment about things?

He Yi actually asked him to kill his thoughts...

This is too much!

Even if the other party is Academician Wang... Well, Qian Hongyu thought about it carefully, and what He Yi said makes sense. At least so far, Academician Wang has never made a mistake, and his so-called personal thoughts have no theory. Support is only due to the lack of progress in research.

When He Yi talked about killing himself, he just asked Qian Hongyu not to question Wang Hao. In fact, he also had his own ideas.

In the office.

When Wang Hao, He Yi, Qian Hongyu and others were staring at the structural diagram of the equipment, He Yi expressed his opinion, "Academician Wang, if it is to improve the equipment, should we change our thinking?"

"for example?"

Wang Hao held his chin and looked at He Yi.

"We have been studying co-currents all the time, but the structure of co-currents, I think, has been studied very deeply."

"From the very beginning when the gravitational field was discovered, until now, all we have done is simplify the underlying structure of the device and study the problem of co-directional currents. Maybe we can add something to the underlying structure?"

He Yi said with thought.

Wang Hao's eyes suddenly lit up because he received the correct feedback. He couldn't help but patted He Yi on the shoulder, "Academician He, you are finally a genius for once!"

"ah?"

He Yi suddenly looked at Qian Hongyu depressedly, "Are Academician Wang praising me? I always feel it's sarcasm? I'm not a genius..."

"I'm usually a genius."

Qian Hongyu expressed his affirmation, "You are a Nobel Prize winner. The whole world knows that you are a genius."

He Yi nodded with satisfaction. As for Wang Hao's sarcastic compliment just now, he simply chose to ignore it.

He Yi's idea really allowed Wang Hao to find a new direction.

Their previous work has been to simplify equipment and revise and improve the theory and structure of co-directional currents, mainly because they determined that co-directional currents are directly related to S waves.

The problem is that the structure related to the S wave is not necessarily the only one with current in the same direction. Maybe other structures can also play a role.

Currently, there are no relevant structures in the underlying architecture of the device, but they can study adding structures, and perhaps find a breakthrough direction for research.

Just do it!

Wang Hao immediately summoned everyone and started a new round of "design meeting", asking everyone to think of a plan to add a new structure.

This research model is already very familiar to everyone.

What they have to do is to use theory as the basis, expand their thinking to carry out design thinking, and then explain their ideas at the meeting.

After entering a familiar mode, everyone became very confident in the research, which also made Huang Mingkun, who had just joined the research, very puzzled. He had no idea why he was doing this.

Does everyone come up with a design plan?

He is included...the problem is that he doesn't understand anything!

The theories involved here are too complicated. Huang Mingkun took a piece of theoretical information and felt like his head was spinning just after glancing at it.

Huang Mingkun feels that he has faced the most difficult job in his life. The degree of difficulty is similar to that when he was in elementary school and his teacher asked him to write a proof of the Riemann Hypothesis as homework.

How is this accomplished?

Huang Mingkun was sitting in the office, looking at a lot of unintelligible symbols and almost wanted to cry.

In fact, he was not the only one scratching his head. Others felt very similar because they also didn't know what to do.

The same is true for He Yi.

What makes He Yi better than Huang Mingkun is his experience.

He went to the theory group to check other people's 'homework' and found that he didn't understand the principle at all and didn't care at all. He went to find the anti-gravity structure diagram.

He Yi's research on anti-gravity technology is still very in-depth, and the basic structural principles are clear.

He found two 'suitable' parts, but couldn't decide. "This part is directly related to the semi-topological structure of the material, which determines the direction of the 'concave opening' of the anti-gravity field."

"This design is similar to a toroidal coil, and it is stability control to ensure stable release..."

"Which part to use?"

He thought and shook his head, "The first one is more reliable. It is related to the semi-topological structure."

He Yi felt much more relaxed immediately after making the decision.

He can go to the meeting and say that the inspiration from the 'anti-gravity structure' can determine the direction of the 'concave opening' of the anti-gravity field. Naturally, it is also possible to control the direction of the subsequent influence of the S wave?

After completing his 'homework', He Yi crossed his legs and took a sip of coffee. He noticed Huang Mingkun opposite, scratching his scalp, and asked immediately, "Professor Huang, are you still troubled by the plan?"

Huang Mingkun said depressedly, "Yeah, I don't even understand the principle. Academician He, can you explain it to me? I can't understand these materials at all!"

He Yi tugged at the corner of his mouth, not to mention Huang Mingkun, he couldn't understand the theory at all!

The complex mathematical structures of the S+ and S- waves studied by the theoretical team are beyond the sky. Unless you follow the research from the very beginning, and you must be a top theoretical physicist, it will be impossible to understand it in a short time.

Of course He Yi would not say that he did not understand. After all, he was an academician who won the Nobel Prize and was recognized as a top physicist in the world.

He looked down at his 'homework' and said, "Professor Huang, I definitely know the theory. However, the theory is too complicated and it is not easy to figure it out in a short time..."

"Yes, yes!" Huang Mingkun nodded vigorously.

"How about this."

He Yidao, "I thought of two plans, but I only used one of them, and I will give the other to you. When the time comes, just say it is your own idea."

"is this okay?"

Huang Mingkun felt like a bad student who 'copied homework', but the temptation to complete the homework directly was too great, so there was no need to continue scratching his head here.

"It doesn't matter."

He Yi smiled and said, "There are two plans anyway. It would be a pity not to use one of them, but you must never say that I gave it to you."

He didn't care at all.

Because of similar research meetings, the plans he proposed were rarely adopted, or even seemed to have never been adopted.

In addition, anti-gravity and gravitational fields are basically two technologies, and they can be said to have nothing to do with each other. He is just accompanying him to 'do his homework'.

What's the big deal about sending in a wrong answer?

Huang Mingkun was very moved and couldn't help but think, "Academician He is really a genius. He actually came up with two plans. Moreover, he knew that I didn't understand, so he just gave me one plan!"

"What a good man!"