From University Lecturer to Chief Academician

Chapter 460 Four-dimensional product? Major discovery, non-radioactive first-order β-iron 58!

The meeting continued.

Wang Hao's speech was just a general introduction to dense material technology, future elements and discovered first-order elements.

What follows is a detailed introduction.

He Yi, Xiang Qiansheng, Wang Jinlu and others made speeches respectively.

They respectively made detailed explanations, including the improvement of material performance by dense material technology, the physical characteristics of future β-iron elements, and the characteristics of several first-order α elements, etc.

Everyone in the venue was listening carefully, and at the same time, it felt very incredible, followed by a strong thirst for knowledge and abundant confidence.

The dense material technology introduced to Qiansheng can directly improve the physical properties of materials.

He gave the example of 'pure gold' as an illustration.

Scholars also have an understanding of technology. Simply put, dense material technology can directly improve the physical properties of materials, including density, melting point, boiling point, toughness, etc.

Such a technique would lead to qualitative advances in materials science.

For example, nickel-iron alloy.

Nickel-iron alloy is the fan blade material of aero-engine, and the melting point of the highest-end nickel-iron alloy can exceed 1450 degrees Celsius.

Many institutions related to aerospace materials will study the manufacturing process and technology of nickel-iron alloys, but the general results are only to increase the melting point by a few degrees, and the life and toughness will be improved accordingly.

That kind of improvement is a further step in the 100-foot high bar. The original '100' can only be improved to '101'.

Dense materials technology is different.

When the dense material technology is used, the density, melting point and toughness of the material can be greatly improved, and it can be improved from '100' to '120' and '130' by leaps and bounds. Putting it on a single material is equivalent to a leap Made decades of progress.

With such technology, many material difficulties will be easily solved.

The design difficulty of nuclear fusion equipment is very high, and the demand for materials is also very high, but in fact, there are so many scholars to demonstrate nuclear fusion technology, which shows that nuclear fusion is theoretically possible.

Although the demand for materials is high, it is not so high that it makes people desperate.

For example, inner insulation material.

During the nuclear fusion reaction, the internal temperature can reach hundreds of millions of degrees Celsius, but the melting point requirement of the memory insulation material is not as high as "tens of millions of degrees Celsius".

That is impossible.

The material with the highest melting point now is only about 5000 degrees Celsius.

The reason lies in the density. The explosion temperature of the nuclear fusion reaction is very high, but the inner explosion temperature and the actual temperature are two different things.

In the weather forecast, the temperature will be divided into conventional temperature and somatosensory temperature.

Conventional temperature refers to the degree of heating, which can be understood as the activity of molecules, and the somatosensory temperature, needless to say, is the actual feeling of the human body.

In general laboratories, temperature refers to the activity of particles.

At an ultra-high temperature of hundreds of millions of degrees Celsius, the particles are heated to the ion state, and only the extremely active ion state can undergo nuclear fusion reactions.

But the insulation material in the inner layer is not able to withstand extremely high temperatures.

The reason is simple: density.

Let’s use an everyday example to explain that the temperature of water vapor can exceed 100 degrees Celsius, but passing through the water vapor will not necessarily cause burns.

It would be different if it was boiled water instead.

This is because the density of water vapor is low, while the density of water is high, so the body feeling brought to people is not on the same level.

The heat insulation material of nuclear fusion devices is much higher than the ionic substances that undergo fusion reactions inside, so naturally it will not withstand high temperatures of hundreds of millions of degrees Celsius.

Of course, the temperature withstood by the insulation material is not low.

However, the inner layer also has a thin layer of strong annihilation force field with absorption capacity, so the melting point requirement of the inner layer insulation material is not so high.

In fact, the melting point of the insulation material is not a big problem. Artificial solar devices have been manufactured in China. When the fusion reaction occurs in the device, it can also reach an ultra-high temperature of more than 100 million degrees Celsius.

Without the aid of a thin layer of strong annihilation force field, the inner layer material can also withstand it.

The key to the material problem is still to deal with neutron impacts and whether the performance can be guaranteed to be stable in an extremely harsh environment for a long time.

The longevity of the material is a big issue.

The material of the outer layer is relatively better, but it is very complicated to replace the material of the inner layer.

For example, rubber.

Composite rubber has many advantages for sealing, but the life of rubber is a big problem, and it is easy to dry out after continuous use.

This is the problem that needs to be solved.

...

After the meeting.

The scholars have not left for a long time, they are all discussing constantly.

Everyone was very surprised and excited.

Many people know that Wang Hao's team must have a lot of undisclosed technologies in their research on strong annihilation force fields, but they never thought that there would be so many discoveries in the field of materials alone.

The Anti-Gravity Behavior Research Center is the most concerned scientific research institution in the world in recent years.

Many media reports will focus on the strong annihilation force field technology mastered by the Antigravity Behavior Research Center. Therefore, many people judge that the strong annihilation force field technology of Wang Hao's team has reached a bottleneck of rapid progress.

This can be seen from the discovery of first-order elements.

The Antigravity Behavior Research Center discovered iron and lithium, and soon it was able to mass-produce first-order iron, and later discovered first-order carbon.

Then, it stopped.

After the first-order carbon element was discovered, Annihilation Technology Company did not release any relevant news, indicating that it was impossible to mass-produce magnetized carbon materials.

Institutions and scholars have judged the technology of Wang Hao's team to be able to create a strong annihilation force field with a maximum of '8.3 times'.

It now appears that all judgments were wrong.

So many first-order elements have been discovered, and the strong annihilation force field produced is definitely higher than the '8.3 magnification'. They still have the energy to research a brand-new material technology, which shows that the level of technology they have mastered is far beyond ordinary people, even imagination of scholars.

At the same time, many scholars are also talking about first-order hydrogen.

First-order hydrogen is the most concerned step-up element, because hydrogen is a gas element, and the hydrogen isotope 'deuterium' is a material for nuclear fusion reactions.

So here comes the problem.

"Is it possible to produce first-order deuterium?"

"If first-order deuterium is used as a raw material, will the reaction be more intense and require less temperature?"

"The activity of higher-order elements will increase. What is certain for the time being is that if you use first-order deuterium and first-order tritium as raw materials, you will definitely be able to create an astonishingly powerful hydrogen bomb..."

...

After the meeting, Wang Hao left and returned to Xihai University.

His job is to participate in the conference and announce the technologies and discoveries, and the announcement is only to the scholars participating in the conference, rather than officially releasing information to the outside world.

Of course, after the official release, the confidentiality will definitely be challenged.

But it's no big deal.

They are doing material research and development for the design of nuclear fusion devices, rather than manufacturing weapons that threaten the world. The reason why technologies and discoveries are not made public is mainly because of the confidentiality of f-rays.

The study of materials also needs to be done by professionals.

The Annihilation Force Field Experimental Group and the Technology Department of Annihilation Technology Co., Ltd. will cooperate with the research of other institutions, and the specific work will be handed over to Xiang Qiansheng, He Yi, Wang Jinlu and others.

Wang Hao returned to the Mason Number Laboratory, and he is still more interested in theory.

time theory.

He hopes to understand how it works.

Although the outside world mostly disagrees with the time theory, Wang Hao is sure that his research is correct.

So here comes the question——

How does time exist independently of motion?

Time is a dimension? An electromagnetic wave? Or is it a kind of spatial fluctuation?

When thinking deeply, Wang Hao found that the research surpassed his ability to understand, and he could only use the most realistic mathematics for analysis.

At the same time, we will also find other people to discuss.

Paul Phil-Jones, Helen, Luo Dayong and others do not agree with the time theory, and Wang Hao can only talk to Ding Zhiqiang and Chen Mengmeng.

As a result, unfortunately.

So far, Ding Zhiqiang and Chen Mengmeng haven't brought him any inspiration.

Ding Zhiqiang felt that Wang Hao's research was a bit "fantasy". When discussing in private, he couldn't help complaining, "Mr. Wang has become obsessed recently. He asked me what kind of existence is time out of motion?"

"Is time a special kind of microwave radiation?"

"Is time a product of the fourth dimension?"

"He also gave me an example..."

A group of people leaned over and listened.

Ding Zhiqiang continued, "Let me tell you something. For example, my computer is not turned on. For the computer itself, there is no change in the data inside it. For it, time has stopped."

"And our time continues to flow, right?"

"Our universe is like this computer, even when it's not working, time is still flowing..."

"So he thinks that time is a high-dimensional product, and we are high-dimensional existence compared to computers. After he finished speaking, he asked me what I thought..."

"What can I think?"

Ding Zhiqiang spread his hands vigorously, and said with the corners of his mouth, "At that time, I was thinking about what to eat for lunch. I drank a cup of soy milk in the morning."

"Hahaha……"

A group of people suddenly laughed.

They thought carefully about the example Wang Hao said, and they also felt that it made sense, but this kind of research seemed to fall into the category of philosophy again.

...

Wang Hao ignored what other people thought, he just continued to do his own research.

For the imagination of time, he just hopes to understand it from a certain angle. He prefers to use real mathematics to express it.

Research doesn't happen overnight.

Wang Hao just thinks about it when he has time.

Recently, when he has free time, he will go home to accompany Su Yingxue. Su Yingxue has a big belly, and the time is close to the due date.

Wang Hao was looking forward to and excited, and also a little complicated and panicked.

In the two lifetimes together, he is still a father for the first time, so his mood is naturally very complicated, thinking about the baby that may be born at any time, sometimes, he can't continue his work.

Morning.

A doctor came to examine Su Yingxue.

Wang Hao didn't go to work. After taking the test with him, he asked about the specific situation in detail. The doctor suggested that Su Yingxue should do more exercise, and he accompanied him for a walk around.

They had just walked out of the house when the phone rang.

It's Chen Mengmeng.

Chen Mengmeng said that Xiang Qiansheng had made a big discovery and asked Wang Hao to go to the annihilation force field experiment group.

After Wang Hao put down the phone, he could only look at Su Yingxue apologetically, Su Yingxue smiled lightly and said, "It's okay, I can walk by myself, anyway, there are always people, don't worry."

"You go to work."

"It would be selfish for me to keep you at home just for myself."

"Um."

Wang Hao nodded slightly, kissed Su Yingxue's forehead, and then took a military vehicle to the annihilation force field experiment group.

Xiang Qiansheng asked him to go to the annihilation force field experiment team, there must be some very important discovery.

He is still looking forward to it.

More than three hours later, Wang Hao came to the annihilation force field experiment base. When he entered the central building, he found that it was busy inside.

"Academician Wang!"

"Academician Wang, here we come!"

"You finally came……"

Everyone was very excited.

Wang Hao asked a researcher and found out that the research had indeed made a major discovery. They used an isotope of iron to create future elements that do not contain radioactivity.

"Iron-58!"

In the office, Xiang Qiansheng said excitedly, "The Annihilation Technology Company used iron 58 with a purity of more than 99% to produce first-order alpha iron 58."

"Afterwards, we used dense material technology to produce the first-order β-iron 58, and found that the material is almost non-radioactive..."

"There is also radioactivity, but it is conventional radiation, and its intensity will not cause harm to the human body."

Wang Hao was also very excited when he heard the news.

After discovering the future element, they have been looking for a future iron element that is not radioactive, and now they have finally found this element.

The significance of this discovery is extraordinary.

From a theoretical point of view, it once again proves that "Universe Development and Element Behavior", that is, with the continuous increase in the strength of the annihilation force field, elements in a conventional stable state may change into radioactive elements, and radioactive elements may also change into radioactive elements. into a stable element.

Iron-58 is not radioactive, but finding a non-radioactive future element is also very important for solid theoretical research.

The discovery of the first-order β-iron 58 has greater practical significance.

The reason for looking for future iron elements that do not have radioactivity is mainly to study the "future element superconducting material" and continue to develop strong annihilation force field technology.

The first order beta iron 56 is radioactive.

Using radioactive materials to study the corresponding superconducting materials will be greatly restricted in operation, and researchers must ensure safety.

In this way, many experiments will be limited.

The first-order β-iron 58 does not have radioactivity, so it can be routinely studied, and a large number of experiments related to superconducting materials can also be carried out normally.

This will support the research of many superconducting materials based on first-order β-iron 58.

A characteristic of the future element is that it will not produce specificity in the environment of annihilation force field. In simple terms, it can support the creation of strong annihilation force field.

For example, the superconducting material used in the F-ray generating equipment is a first-order iron-based superconducting material. Affected by a peculiar phenomenon, the strength of the initial antigravity field produced is less than 6.5%.

If the first-order α-iron element is replaced by the first-order β-iron element, the strength of the anti-gravity field produced by it can exceed 10% at least.

This is still a very conservative figure.

With the non-radioactive first-order β-iron 58, the strong annihilation force field generation technology can use metal superconducting materials to replace high-pressure mixed materials, and at the same time, the technical strength will also be greatly improved.

F-ray generation technology can also be greatly improved.

Wang Hao thought about it deeply, and he was already looking forward to it.

The same goes for everyone else.

Everyone knows what the new discovery means, and they will soon be able to create a strong annihilation force field with a strength exceeding 10 times, or even 15 times, 20 times.

There will be many new discoveries if we conduct research on this basis!