For the people on the plane, it is just two hours on the plane; for the people on the ground, it is only two hours. What really changes is the defined time. There is no difference in perception, both just think that two hours have passed.

There are many similar examples.

As long as the perception of time is the same, then time will not change, and associating particle degeneration with controlling time can only occur in semi-philosophical discussions.

Because space cannot absorb energy without limit, and it cannot directly absorb neutrons, protons, and quarks, it determines that no matter how strong the space barrier effect is, it cannot achieve [-]%, and it also determines that the space barrier has a certain impact on particles. The upper limit, even if it is infinitely close to the upper limit, the impact on human perception is still negligible.

Therefore, from the perspective of the degeneration of particle behavior, thinking about the problem of controlling time can only exist in the imagination.

Leaving aside the issue of affecting time, the paper on 'Particle Morphological Degeneration' was very influential after it was published.

Because this is a very amazing discovery, which directly subverts the previous understanding of the physical world, and may even directly affect the authority of Einstein's theory of relativity.

In addition, this finding is well documented.

Many institutions have begun to study anti-gravity technology. They can detect the highest particle velocity in an anti-gravity environment. Because of this, almost no one doubts Zhao Yi's discovery. Many institutions have also directly conducted research and immediately announced the results. result of the same conclusion.

The significance of this result is too great.

There are many smart people in the world, and someone immediately thought of using anti-gravity technology to conduct controllable nuclear fusion research.

The most difficult thing about nuclear fusion is to control, because once the nuclear fusion starts, the reaction will happen in exponential increments.

How to control it has always been a big problem. It was previously considered that the best method is to use magnetic field control. There are still many unique designs, but no matter how perfect the design is, it can only stay in the drawings for the time being, and even the laboratory has not given it. Solution, practice is even more impossible.

Now it is discovered that the particles degenerate in an anti-gravity environment, and the nuclear fusion reaction speed will be controlled by the upper limit. As long as the upper limit is grasped, nuclear fusion can be perfectly controlled.

Although this idea is very good, professional nuclear experts can easily conclude, "Even if nuclear fusion is controlled to the upper limit, it is impossible to control it at all."

"Because once the nuclear fusion speed is controlled, it may cause the problem that the input is greater than the output, and it is simply not possible for the current materials and technologies to achieve the output greater than the input."

"unless……"

"Using magnetic field control and anti-gravity technology together, we may be able to create a complete nuclear fusion device!"

Many nuclear fusion research institutions also participated in anti-gravity research, and they all came to the same conclusion.

This research and development direction sounds very promising.

But they never thought that when the research direction only exists in thinking, Zhao Yi pointed out a clear way for them.

-

This is an interview.

The reason why the media reporters came to interview Zhao Yi was because of the discovery of "degenerate particle behavior". It has caused a sensation in the scientific research and academic circles, and it can be said that it has triggered an earthquake in the physics world.

Similar major discoveries must be interviewed.

In the past two years, Zhao Yi has rarely given interviews, but this time he publicly appeared in front of the camera, and seriously talked about the problem of particle degeneration in an anti-gravity environment.

First of all, Zhao Yi explained the degeneration of particles, and determined that this is a very big discovery, which will even subvert physics, and may shake the status of Einstein's theory of relativity.

After that, Zhao Yi talked about technical issues, "We are trying to study the nuclear fusion reaction in an anti-gravity environment."

"Nuclear fusion represents the future of energy, and the discovery of particle decay in an antigravity environment makes controllable nuclear fusion possible."

"We have achieved certain results, but we are still far from completion."

The reporter asked, "Can you talk about some related technologies?"

"of course can."

Zhao Yi said, "We are combining anti-energy barrier technology with nuclear fusion. Let the anti-energy barrier become an insulating layer for nuclear fusion reactions, and in theory, perfect control of nuclear fusion can be realized."

"But—" he said and shook his head, "The anti-energy barrier is a new technology, and we haven't fully understood it yet. These can only exist in theory for the time being, and we will slowly experiment in the future."

"Although R&D has encountered many problems, we believe that one day it will be done. If it can't be done in one year, it will be two years. If it can't be done in two years, it will be ten years. There will always be a day in the future—"

Zhao Yi said a lot with a firm attitude, almost meaning that controllable nuclear fusion represents the future, even if it takes two, three, or five generations, it must be unswervingly researched.

One stone shocked a thousand waves!

When the interview video was played, it immediately attracted the attention of the whole world.

As expected, various research institutes abandoned the combination of 'magnetic field confinement + anti-gravity technology', and instead focused on the combination of 'anti-gravity technology + anti-energy barrier'.

Because, it sounds very reliable.

Judging from the information released so far, the anti-energy barrier can indeed directly isolate energy, so what is the need for magnetic field confinement?

The anti-energy barrier is the best choice!

-

Many institutions have begun to pay attention to the research of anti-energy barriers, and many hope to obtain technologies related to the research and development of anti-energy barriers from the domestic anti-gravity experiment group or the Institute of Mechanics.

Of course.

Even the Institute of Mechanics, which has just discovered the anti-energy barrier, cannot directly share the technology with the world. All they can get is two pieces of information, one is to 'increase the power', and the other is to 'rearrange the combination of beams'.

These two pieces of information are still very valuable, but any organization will definitely need to do a lot of experiments before they can really create an anti-energy barrier.

As for control—

Zhao Yi estimated that there will be no 20 or 30 years, so he doesn't even need to think about it.

Not to mention controlling the anti-energy barrier, even if you want to maintain the barrier for a longer period of time, you don't know how long you want it. Let alone maintaining it permanently, it is simply impossible within ten years.

time is money.

The reason why Zhao Yi made public the news of particle degeneration and fusion controlled by anti-energy barriers was fundamentally beneficial.

This can be understood as 'routine publication of research results'.

The country has come up with anti-gravity technology and has been doing research continuously, and the research and development speed must be faster than other institutions.

Many institutions would like to know how far domestic anti-gravity research has reached, so they will announce it periodically.

When other institutions know that the anti-gravity experiment group is conducting research on controlled nuclear fusion, and intends to continue for several generations and slowly accumulate technology, they will naturally feel at ease.

Because, it's been too long.

These organizations have no doubts about the information they have received. The "degeneration of particles" is already a very big discovery. Controlled nuclear fusion cannot be completed in a short time, and it takes a long time as a matter of course.

At the same time, they immediately started the same research.

This is a clear path.

Controllable nuclear fusion is so important. After the concept of controllable nuclear fusion was proposed, it attracted countless institutions to participate in research and development. Most scientists believe that controllable nuclear fusion represents the future of energy, and energy is development and survival. Foundation.

Therefore, many well-known institutions have received large sums of sponsorship from the outside world, and have begun to conduct research on 'anti-energy barriers' and 'nuclear fusion in an anti-gravity environment'.

This is also one of the purposes of releasing the news.

The investment in anti-gravity nuclear fusion is large and the scale of the experiment is large. It is impossible to keep it completely secret. It is better to disclose it directly and let everyone know what research they are doing. Then they can do it publicly. As for the progress of the research which step?

Feel sorry!

It's a secret!

Zhao Yi didn't participate in the follow-up, he just went back to the capital to attend a 'Spaceship' meeting, accepted media interviews by the way, didn't even stay home for two days, and returned to the experimental base non-stop.

Preparations for the second experiment began.

At the end of the last experiment, it is almost done. The experimental materials have been tested in various ways, and the tests are very subtle.

While some of the other stats were expected, there was one that deserved attention: the increased electrical conductivity of the compressed metal.

This is a very useful finding.

The same material, the same mass, the same length, and only the thickness of the metal conductor is different. The electrical conductivity of the compressed metal has been significantly enhanced, which shows that the electronic activity of the compressed metal has increased significantly.

"In the future, we can use these compressed metals to replace those precious metals." Some researchers said with expectation, "This will greatly reduce the cost."

Of course.

Impossible for now.

A large-scale Z-wave experiment consumes a lot, and the compressed metal itself is the cost. If you want to use compressed metal to replace precious metals in electronic components, unless Z-wave compression technology is popularized in the future, compressed metals can be mass-produced .

before the experiment.

Zhao Yi summarized the last experiment and assigned the work patiently.

Although he is the head of the experimental group, most of the work is handed over to other people, and he is only responsible for the part related to the experimental research.

This time, Zhao Yi was most concerned with superconducting materials. He selected five kinds of superconducting materials, including liquid nitrogen and copper-based metals, and placed them in the experimental area. Read it several times.

People in the theory team also discovered Zhao Yi's emphasis on superconducting materials.

Because Zhao Yi did not explain the reason for placing the superconducting material, they also speculated privately, "The conclusion of the last experiment is that the conductivity of the metal material has been enhanced."

"Think about it! If it is a superconducting material, its performance will definitely increase after being compressed, so will the temperature at which superconducting properties be achieved increase?"

"It's very possible!"

"So after this experiment, we are likely to get real high-temperature superconducting materials."

"Do you know the latest discovery? There is a superconductivity research institute that discovered a copper-based material that can achieve superconductivity at 120 Kelvin, which is already the highest temperature."

"After this experiment, the record will definitely be broken."

"We may be able to get superconducting materials above 150K, or even 200K, and then it will be amazing—"

"Superconducting materials are likely to become popular!"

Kelvin is also a unit of temperature, 0 Kelvin is equal to minus 273.15 degrees Celsius.

Ordinary superconducting materials require an ultra-low temperature below minus two hundred degrees to achieve superconducting properties. It is conceivable how difficult it is to manufacture such a low temperature, which means how high the cost is.

If it is possible to manufacture materials that can achieve superconducting properties within minus one hundred degrees, it can be said that superconducting materials can be truly popularized, because within minus one hundred degrees, there is almost no difficulty.

Everyone was discussing enthusiastically, and Zhang Qican was one of them.

When Zhao Yi walked over from behind, Zhang Qican simply said, "Academician Zhao, the main purpose of this experiment is to obtain ultra-high temperature superconducting materials, right?"

"Ah? What?" Zhao Yi was a little dazed.

"It must be! Don't deny it!"

Zhang Qican said affirmatively, "Academician Zhao, we all guessed it. It must be the case. The research on ultra-high temperature superconducting materials is really too important."

"I remember that before the conclusion that the conductivity of compressed metals is enhanced, you have already explained your work and made it clear that superconducting materials will be compressed next time. It is really amazing, and you have the foresight!"

"You figured it out then, didn't you? That's amazing!"

"Balaba-"

Zhang Qican said a lot of words of admiration in succession, and the others followed suit.

Zhao Yi listened in a daze, and then he just kept nodding his head, his expression almost said, "You are all right, I am so prescient, I didn't expect to be discovered by you." '

Later, he simply patted Zhang Qican on the shoulder and gave him a positive look, "In short, this experiment is very important, everyone should cheer up!"

"come on!"

"Strive to obtain ultra-high temperature superconducting materials!"

"..."

Chapter 598 Manufacture of superconducting materials above 200K!

Even a minute ago, Zhao Yi had never made any ultra-high-temperature superconducting materials, and his thoughts were not here at all.

There are too many theories about superconductivity in the physics world, and the superconductivity problem cannot be said to be completely solved, but most of the surface energy has been discovered, and there is not much room for exploration in theory.

Zhao Yi just focuses on theoretical research, and the research on ultra-high temperature superconducting materials belongs to technology.

The difference between the two is huge.

The main purpose of the theory group experiment is to analyze the space and study the theory. During the experiment, the discovery of new compression materials is only incidental. The most important thing is to improve the space theory related to Z wave according to the experimental results.

This is the ultimate purpose of the experiment.

When he heard a lot of people talking about ultra-high temperature superconducting materials, Zhao Yi thought about it carefully and found that it was indeed a very good idea.

Although he does not focus on research technology, it is an unexpected gain to be able to obtain ultra-high temperature superconducting materials during the experiment.

As analyzed by others, the possibility of obtaining ultra-high-temperature superconducting materials is very high, because after ordinary metals are compressed, the electrical conductivity will be enhanced, which must be related to the increased electronic activity inside the compressed metal.

In fact, the principle of superconductivity is different from that of ordinary metals.

The principle of superconductivity is that when the temperature is low to a critical value, the speed of electrons outside the nucleus decreases, and the speed of valence electrons is getting lower and lower. Atoms are used to the fast movement of electrons outside the nucleus at high temperatures, and the movement of valence and electrons is slow. A phenomenon in which atoms temporarily lack valence electrons.

Temporary lack of valence electrons in the atoms forms a large electron vacancy, the voltage wave is unblocked, and the valence electrons move along the trend under the action of the voltage wave, forming a common electron flow for extranuclear electrons.

This is the superconducting current.

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