Research starts with PhD students

Chapter 314: Space Fault! Unprecedented Material Technology!
To be fair, Guo Hua, Tang Haiyi and others have done a very good job.

Their research combines experimental conditions with the source point theory to analyze the gravitational barrier from a theoretical level. It also links the problem of instantaneous transformation of chaotic force fields and constructs the so-called "mathematical foundation".

If you don't know the basic principles, you might be intimidated by a bunch of complicated theories.

The problem is that the principle of gravitational barriers is not complicated and has no direct relationship with any chaotic force field transformation. It is purely a matter of the characteristics of the gravitational field itself.

Zhang Shuo had not expected this either. He understood the principle with the inspiration of "氪币".

So while he denied the research of Guo Hua, Tang Haiyi and others to a certain extent, his eyes were also full of admiration when he looked at them.

Tang Haiyi, Guo Hua and others were somewhat dissatisfied.

When faced with a theory that studies a completely new physical phenomenon, how can it be said to be wrong unless it has been directly disproven?

This is the basic rule of existence of theoretical physics.

Even if the other party is Zhang Shuo...

Ok!

Tang Haiyi didn't dare to say anything, and the same went for everyone else. They couldn't show their dissatisfaction on paper.

Zhang Shuo didn't care about their thoughts. With a faint smile on his face, he said, "I have already studied this issue."

"it's actually really easy……"

"Simple?"

Tang Haiyi almost couldn't catch his breath.

Liu Mingkun couldn't help but interrupt and said, "Simple? This... is simple..."

His expression was a little exaggerated.

Others could understand Liu Mingkun because they felt the same way.

Zhang Shuo waved his hand nonchalantly and continued, "Listen to me first. I'll tell you one point and you'll understand."

"Einstein's theory of general relativity!"

"Einstein's theory of general relativity describes gravity as a manifestation of the curvature of space-time."

“You can start thinking from this direction…”

Zhang Shuo has finished speaking.

The others immediately started discussing it. Some thought more deeply and began to study Einstein's gravitational equations, but some people understood it quickly.

"Yes, gravity can be understood as the curvature of space-time!" It was Guo Hua who shouted.

He continued excitedly, "The curvature of space-time must be smooth, so the gravitational field we create must exist in a special area around it, otherwise space would be torn apart."

"But objects can still enter the normal gravitational field. Obviously, the space is not torn apart..."

The others immediately understood.

Everyone present was an expert in physics, and with just a little reminder, they could all think of the space-time conflict between the gravitational field and the surrounding conventional environment.

When we think about it from this perspective, we find that the existence of gravitational field layers is normal, otherwise it will conflict with Einstein's theory.

"So that's it."

"The gravitational barrier must exist, otherwise wouldn't it prove that Einstein's theory is wrong?"

"It's really not that complicated, but from this perspective, our experiment supports Einstein's theory of space and time?"

"Maybe, but it's just one explanation. All of them are explanations of existing physical discoveries."

"So the barrier itself exists, but it is not obvious in the ordinary gravitational field. When the gravitational field undergoes periodic changes, the barrier has some characteristics?"

When everyone had finished discussing, Zhang Shuo said, "For now, we can understand it this way."

"From this perspective, the explanation should be very complete, but our most important research is to figure out the mechanism."

"The research is about why tritium causes such changes in the gravitational field."

"From the problem of the instantaneous transformation of the chaotic force field to the influence of the weak force on the transformation..."

Zhang Shuo talked about some theoretical issues.

After leaving the theoretical research office, he went to the laboratory to check the preparatory work.

The work in the laboratory is almost complete.

The next day was the experiment, and the final equipment testing was already underway. Director Zhang was concerned about some major tasks, including the detection device for the edge layer of the gravitational field.

Afterwards, he was taken away by Teacher Zhao.

Since the last experiment, Teacher Zhao seemed to have been stationed in Sudong City for a long time, always focusing on their experiments, as if he didn't have to do anything else.

In fact, this is also true.

Teacher Zhao applied, turned down all other work, and focused all his energy on the experiment.

One is the concern for Zhang Shuo’s personal safety and the experiment’s safety.

He was also very concerned about the experiment because it had made new discoveries and had created an invisible membrane, which sounded incredible.

This must be a major research finding. You can tell how important it is just by hearing it.

The next morning, the experiment proceeded normally.

Teacher Zhao and Zhang Shuo stayed together in a military-controlled area thirty kilometers away.

There was a computer in front of them, which was playing real-time images of the laboratory room, and they could also hear the sounds coming from inside.

In other words, they watched the experiment from a distance in real time.

This also represents Teacher Zhao’s attention.

When the research reached this stage, Professor Zhao was interested in what discoveries would be made in the experiment.

"It feels totally unnecessary." Zhang Shuo was dragged over to watch the surveillance video.

He originally planned to walk around and listen to the report after the experiment was completed.

"Nothing can be seen in the experiment. The equipment has been put in place. Even if there is a discovery, it will not be obvious."

"If the phenomenon is very obvious and can even be seen by surveillance cameras, it may really mean that an accident may have occurred..."

Teacher Zhao didn't care what Zhang Shuo said, he just said, "Even if you can't see anything, it's good to know that the experiment is safe."

“That’s true.”

Zhang Shuo reluctantly agreed. He simply explained the experimental plan to Teacher Zhao, "We are studying the physical properties of the gravitational barrier."

"It includes physical and energy aspects. For example, we want to study whether the partition will have an impact on the radiation. The device in the middle is used to emit radiation, and there is a radar-like device at the back to receive it to see if there is any phenomenon such as energy attenuation."

"But theoretically it shouldn't be possible..."

"It's mainly physical, including strength, thickness of the barrier, and tearing properties of the material..."

"These are important."

Teacher Zhao asked curiously, "You said that you were studying physical properties. Is it possible that the barrier would be completely unbreakable?"

“This…is impossible!”

Zhang Shuo found it a little funny. "But there was equipment that passed through the partition. The gravity measuring device was in the center, but the detection did not find any problems."

"It's just some metal, right? It doesn't look like it has any electronic parts. If it does, will it be damaged?"

"That's possible." Zhang Shuo followed his thoughts. He was not thinking about the damage to the electronic components, because that was 'very likely' to happen.

He was thinking about the 'unbreakable' problem.

Generally speaking, it is impossible for an unbreakable barrier to appear, but when gravity is involved, especially when space issues are involved, such a barrier may appear.

Even if it is not a "space fault", for example, if the frequency of the periodic changes in the gravitational field is high enough, the strength of the gravitational barrier will definitely increase greatly.

By then, we will be able to withstand a huge impact.

That is not an impact force, but may be an impact on the matter. For example, matter with a high enough density cannot enter, but matter with a low density can enter directly.

Just like the ground and the sky, materials with high density can only fall to the ground, and gases with low density to a certain level can rise to the sky.

Those high-density materials will fall back to the ground even if they rise to a certain height, unless they can break out of the earth in one breath.

"This can also be interpreted as 'unbreakable', as long as the intensity is high enough."

"Increasing the strength of the gravitational barrier may not be difficult. It just requires gravitational strength and frequency. Increasing the strength is not easy, but increasing the frequency is easy."

"The speed of tritium is not very fast right now. It can be increased by dozens or hundreds of times, but it will require more complex equipment..."

"What if you want to go a step further and develop a real space barrier?"

Zhang Shuo laughed when he thought about it.

This is just being too ambitious!

Research still needs to start from reality. What is most needed now is to use experiments to analyze the underlying basic theories.

……

The experiment ended quickly.

The whole process went very smoothly, and the measurement of the gravitational barrier properties also produced results.

Strength, thickness, tearing properties of materials...

The three basic characteristics are already written on paper, and each attribute has a fixed value, and the value size is not unexpected.

When the physical properties of a substance reach a certain level, it will not be affected by the tearing properties.

This is why the gravity measuring equipment was not affected.

The reason why we say "physical properties" instead of hardness or other specific properties is that no one can understand the specific properties through experiments.

The tearing characteristics of the gravitational barrier do not target the surface of the material, but will affect the inside and outside of the material.

If we use one word to describe it, perhaps it can be understood as "the solidity of the material."

"Metals are affected as well!"

Yao Qiming said, "We measured the gravitational equipment and found that part of the metal in the gravitational barrier showed signs of fatigue."

"This also proves that metal will also change if it is affected by the barrier for a long time..."

This discovery is very important.

The strength and thickness of the gravitational barrier are just numerical values. The depth of research can only correspond to the movement of tritium elements to explore its underlying technical logic.

There is a lot to study about the tearing properties of interlayers on matter.

This tearing is not external; the field force penetrates into the substance and can even be considered at the atomic level.

In the last experiment, nothing was detected from the plastic water cup, mainly because of the material of the cup. In addition, the collision was instantaneous, and the cup was unable to penetrate the gravitational barrier, so it was difficult to detect anything.

The current test results are very rich. There are also biological experiments in the experiments, which is to allow some biological samples to be driven through the partition by metal materials. Now it is found that all the cells in the samples are dead.

After completing the data and experimental reports, the researchers began discussions.

After having a basic understanding of gravitational barriers, many people can use their imagination to think of various problems.

A researcher named Cui Guoqing asked an interesting question: "If the gravitational barrier is strong enough, can it affect molecules, for example, tear chemical bonds?"

Many people fell into deep thought after hearing this.

Zhang Shuo also frowned, thought about it carefully and nodded, "Theoretically, it should be possible."

“This must be experimented with.”

After he finished speaking, he asked Yao Qiming, "Did you find any broken chemical bonds in the material testing during our experiment?"

“There is no relevant testing.”

Yao Qiming said immediately, "I'll let the testing team take a look right away."

There are a lot of materials in the experiment.

It is relatively easy to detect whether the chemical bonds in a material have been broken, because there are very few simple substances in the material and most of them are compounds.

The test results came out three days later.

The next day there were clear reports that some materials had undergone minor changes.

For example, carbon has been detected in biological sample materials, but the proportion is very small.

Even if the proportion is small, as long as it is detected, it is very unusual, indicating that the gravitational barrier can indeed tear chemical bonds and affect the molecular level.

Of course, the impact is very small.

The experimental team believes that this is mainly because the strength is not high. When the strength of the gravitational barrier is high enough, the impact will definitely increase significantly.

"Perhaps there will be widespread problems with chemical bond breaking, which could have a big impact."

"The breaking of chemical bonds is equivalent to a direct chemical reaction, which will definitely release energy and may even cause an explosion..."

"Now that I think about it, the experiment is really dangerous!"

After seeing the test report, Zhang Shuo felt scared.

If the gravitational barrier is made stronger, a big explosion might actually occur after materials are placed in the barrier.

"The intensity of this research cannot be increased any further." Zhang Shuo made the decision promptly.

Teacher Zhao was also listening in on the meeting. He immediately said, "Shouldn't the lab be shut down? It's too dangerous."

"This strength won't be a problem." Zhang Shuo said, "We are mainly studying the underlying theory. Now that we have such a discovery, we must report it."

“Let other teams do this kind of research.”

Teacher Zhao also nodded, "Yes, we can't increase the intensity any more. It's too dangerous."

"We can't just consider safety issues." Zhang Shuo said with some anticipation, "The gravitational barrier can break chemical bonds. Teacher Zhao, do you know what this means?"

"what?"

Zhang Shuo said directly, "It represents a completely new material technology that has never appeared before, and there is a lot of room for research."

Everyone else reacted.

If the gravitational barrier can break chemical bonds, doesn't it mean that it can directly split the elements of the compound?

Even if we ignore the characteristics of separating elements, is it possible to use the characteristics of gravitational barriers to cause some single substances to mutate?

For example, using carbon...

Directly produce large quantities of diamonds?
Even if this technology is not put into practical use, at least its scientific research prospects are very broad!

(End of this chapter)