Genius of the Rules-Style System

The degradation of particle behavior can be simply understood as the maximum speed of particles being limited, and any particle with mass will be affected.

When such an impact occurs, professional scholars immediately think of the issue of timing.

Although particles are microscopic substances that cannot be sensed in daily life, particles are the constituent units of all things. When the properties of particles are affected, all substances will be affected.

This will definitely affect human perception of time and also affect some mechanical operations.

For example, electronic watches.

The current transmission speed inside the electronic watch is mainly due to the effect of electrons, and electrons are precisely particles with mass. When the speed of electrons is limited, the operation of the electronic watch will definitely be affected, but the impact is very weak, because The difference between the speed of light and half the speed of light is not very big. They are both almost imperceptible speeds. As long as the current transmission speed exceeds the perception range, it will have minimal impact on the operation of the electronic watch.

However, there will definitely be some impact. For example, under a space blocking effect of more than 99% strength, if an ordinary electronic watch is operated for a month, the time will be slower by about one second.

In addition, the human body's perception of time will also be affected.

Human cells, compounds, proteins, etc. are all composed of particles, and the speed of the particles determines the basis.

If the maximum speed of the particles is limited, such as only 50% of the speed of light, nervous system transmission will be slightly affected, thus affecting the neural response speed.

But, again, the impact is minimal.

Limiting the maximum speed of particles will have an impact on mechanical operation and time perception, but in fact, "controlling time" in this way is somewhat of a philosophical category.

To give a simple example, there is a saying in physics that if you circle the earth once, time will be affected.

In fact, if you think about it carefully, you can understand it this way.

For example, circumnavigating the earth in two hours.

For the people on the plane, it was just two hours on the plane; for the people on the ground, it was only two hours. What really changed was only the defined time. Both of them have different views on time. There is no difference in perception, they all 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, it cannot directly absorb neutrons, protons, and quarks. This determines that no matter how strong the space barrier effect is, it cannot achieve 100%. 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 minimal.

Therefore, thinking about the issue of controlling time from the perspective of particle state degradation can only exist in imagination.

Putting aside the issue of impact time, the paper on "Degeneration of Particle Form" had a huge impact after it was published.

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

Additionally, this finding is well documented.

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

This result is of great significance.

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

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

How to control it has always been a big problem. It was previously considered that the best method was to use magnetic field control. There are 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 been able to provide it. Solutions, practice are even less likely.

Now it has been discovered that particles degrade in an anti-gravity environment, and the nuclear fusion reaction speed will be controlled by an 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 that "even if nuclear fusion is controlled to the upper limit, it is simply impossible to control it."

"Because once the speed of nuclear fusion is controlled, it may cause the problem of input being greater than output. And if the output is greater than input, it is simply not achievable with current materials and technology."

"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 are also involved in antigravity research, and they have all reached the same conclusion.

This research and development direction sounds very promising.

But they never expected that when the research direction only existed in their imagination, Zhao Yi pointed out a clear path for them.

——

This is an interview.

The reason why media reporters came to interview Zhao Yi is because of the discovery of "degeneration of particle behavior". It is normal to make new discoveries in gravity technology. However, Zhao Yi's discovery is really difficult to attract public opinion, but It caused a sensation in the scientific research and academic circles, and it can be said to have caused an earthquake in the physics world.

Important discoveries like this will definitely require interviews.

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

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

Zhao Yi then talked about technical issues, "We are trying to study nuclear fusion reactions in an antigravity environment."

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

"We have achieved some results, but we are still far from complete."

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

"sure."

Zhao Yi said, "We combine anti-energy barrier technology with nuclear fusion. By making the anti-energy barrier an isolation layer for the nuclear fusion reaction, we can theoretically achieve perfect control of nuclear fusion."

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

"Although research and development has encountered many problems, we believe that we will do it one day. If we can't do it in one year, it will take two years. If we can't do it in two years, it will take ten years. There will be a day in the future -"

Zhao Yi said a lot with a firm attitude, which basically means that controllable nuclear fusion represents the future, and even if it takes two, three, or five generations, we must continue to study it unswervingly.

One stone stirs up a thousand waves!

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

As expected, various research institutions abandoned the combination of "magnetic field constraint + 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 else needs magnetic field constraints?

Anti-energy barrier is the best choice!

——

Many institutions have begun to pay attention to the research on anti-energy barriers, and many hope to obtain technology related to the development of anti-energy barriers from domestic anti-gravity experimental groups or mechanical research institutes.

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 beam combination'.

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

As for control——

Zhao Yi probably didn't have twenty or thirty years, so there was no need to even 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 it will take, let alone maintaining it permanently, it will be impossible within ten years.

time is money.

The reason why Zhao Yi disclosed the news about particle degradation and anti-energy barrier controlling fusion was basically beneficial.

This can be understood as ‘routine publication of research results’.

China has come up with anti-gravity technology and has been conducting research continuously. The research and development speed is definitely faster than other institutions.

Many institutions will want to know the extent of domestic anti-gravity research, so they will announce it in stages.

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

Because it's been too long.

These institutions have no doubts about the information they have obtained. "Particle degradation" is already a very big discovery. Controllable nuclear fusion cannot be completed in a short time. It takes a long time as a matter of course.

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

This is a clear path.

Controllable nuclear fusion is really 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 amounts of sponsorship from the outside world and have begun research on 'anti-energy barriers' and 'nuclear fusion in anti-gravity environments'.

This is also one of the purposes of releasing news.

Antigravity nuclear fusion requires huge investment and large-scale experiments. It is impossible to keep it completely confidential. It is better to disclose it directly and let everyone know what research they are doing. Then they can do it openly. As for the progress of the research, Which step?

Feel sorry!

This is the secret!

Zhao Yi did not participate anymore. He just returned to the capital to attend a "spaceship" meeting and accepted interviews with the media. He didn't even stay home for two days before returning to the experimental base without stopping.

Preparations for the second experiment have begun.

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

While other data were expected, one was noteworthy: the metal's conductivity increased after compression.

This is a very useful finding.

For metal conductors of the same material, same mass, and same length, with only different thicknesses, the conductivity of the compressed metal has been significantly enhanced, indicating that the electronic activity of the compressed metal has been significantly increased.

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

Of course.

It's not possible for the time being.

A large-scale Z-wave experiment consumes a lot of money. 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 becomes popular in the future, compressed metal can be manufactured in batches. .

Before experiment.

Zhao Yi summarized the last experiment and patiently assigned work.

Although he is the leader of the experimental group, most of the work is handed over to others and he is only responsible for the parts related to experimental research.

This time, Zhao Yi focused most on superconducting materials. He chose five types of superconducting materials, including liquid nitrogen and copper-based metals, and placed them all in the experimental area. Before the experiment started, he even placed them carefully with his own hands. Watched 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 secretly speculated, "The conclusion of the last experiment is that the conductive properties of metal materials have been enhanced."

"Think about it! If it is a superconducting material, its performance will definitely be enhanced after being compressed. Then will the temperature at which superconducting properties are achieved be increased?"

"It's very possible!"

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

"Do you know about a recent discovery? A superconducting research institute discovered a copper-based material that can achieve superconducting properties at 120 Kelvin, which is already the highest temperature."

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

"We may be able to obtain superconducting materials with 150K or even 200K or more. Then it will be amazing——"

"Superconducting materials are likely to become truly popular!"

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

General superconducting materials require ultra-low temperatures below minus 200 degrees to achieve superconducting properties. You can imagine how difficult it is to manufacture such low temperatures, which also means how high the cost is.

If we can create materials that can achieve superconducting properties within minus 100 degrees, it can be said that superconducting materials can truly be popularized, because there is almost no difficulty within minus 100 degrees.

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

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

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

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

Zhang Qican affirmed, "Academician Zhao, we have all guessed it. This must be the case. The research on ultra-high temperature superconducting materials is really important."

"I remember that before the conclusion that the conductivity of compressed metals was enhanced was announced, you had already handed over the work and made it clear that superconducting materials would be compressed next time. It is really amazing and foresighted!"

"You already thought of it then, right? That's amazing!"

"Bala, bala -"

Zhang Qican continued to say a lot of words of praise, and others also followed suit.

Zhao Yi listened blankly, and then simply nodded repeatedly, with an expression that almost said, 'You are all right, I am so foresighted, I didn't expect you to find out. ’

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

"come on!"

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

"..."