"The outer electrons of the first-order iron element are active, which normally means that the composition of the compound will be unstable."

"Ethanol can be more stable than conventional iron compounds......

"In addition, superconducting materials made of first-order iron can create a weak anti-gravity field ...... by tens of ks beyond the critical temperature."

"Electrons are abnormally active, chemical properties are ......"

Wang Hao frowned vigorously and thought carefully, and put all the discoveries together, and he could clearly see the abnormalities that did not conform to the norm.

But why?

"Could the abnormal activity of the outer electrons be related to the abnormal performance of the anti-gravity force of the material?" He continued to think about it, and suddenly thought of a possibility, "Or, semi-topology, there will also be instability?" ”

Stability, instability, are all relative.

The stability of the properties of first-order iron compounds does not mean that other properties will also be stable, and the semi-topological structure formed by the conductive state and the self-selected ion lattice of the superconducting state may be contrary to their chemically stable state.

The instability of semi-topologies has existed for a long time.

Originally, the superposition force field technology was used to create a strong annihilation force field, and the high-pressure hybrid superconducting materials used were unstable in the semi-topological structure formed in the conductive state.

It is precisely because of the structural instability that the anti-gravity field can be created before the superconducting state is reached.

It's like an orange with a notch on one side, and if you knead it hard, a lot of juice will be squirted out on one side and form a certain impact on the outside.

"Now it's also semi-topological unstable, it's just more serious......"

"Maybe it's not one gap, but several, that's why an anti-gravity field can be created when the critical temperature is exceeded by tens of k."

"These are just speculations......

"If you want to understand the basic principles, you still have to have more experimental discoveries and more data to support them."

He thought about it and made a decision.

……

The study of first-order elements is too important.

These include possible anomalous phenomena, including the non-normal activity of the outer electrons, as well as the anomalous anti-gravity properties, and so on.

There are deep mysteries behind all of this.

Wang Hao hoped to reveal the underlying principle, and more experimental support was necessary, so he went directly to the Superconducting Materials Research Center.

After arriving at the research center, he saw Deng Huanshan and asked directly, "Is there an anti-gravity material made of the latest first-order iron?" ”

"The latest?"

Deng Huanshan hesitated, but still said, "There are only a few original ......."

"Haven't you all done your research?" Wang Hao said with a complaint, and also understood that Deng Huanshan was not to blame for the matter, and their main research direction was superconducting materials.

When it comes to the study of anti-gravity materials, the few materials they already have are sufficient.

For example, the material can support the manufacture of a conventional anti-gravity field strength of more than 75%, and can also support the creation of a lateral anti-gravity field of more than 93%.

Of course, they also want to develop new anti-gravity materials, but even if they do, it is difficult to surpass them in terms of performance.

For first-order iron and first-order lithium, they are just replacing conventional iron to create corresponding superconducting materials.

It's already a lot of work.

Wang Hao thought about it and said, "In this way, you set up a new experimental group, and I want to study a new anti-gravity material containing first-order iron." ”

Deng Huanshan was surprised, "Academician Wang, do you want to personally lead the team to study?" ”

"yes, that's a little faster......"

"Great!"

Deng Huanshan was suddenly pleasantly surprised, he really couldn't wait.

In recent years, there have been many achievements in the superconducting materials research center, but it is difficult to say that there is a 'qualitative breakthrough' compared with the original, and it is only a little increase in the critical temperature of superconductivity.

Until now, he still clearly remembers the scene when the laboratory was established, and he followed Wang Hao to do research on superconducting materials.

That's an 'amazing fast break'!

The iron-based superconducting material they have created has a critical temperature that starts at 73 K and quickly reaches 131 K, which is an extremely fast and alarming rate of improvement.

When Wang Hao no longer participates in related work, the research will return to the normal 'turtle speed'.

When you have the feeling of 'rapid breakthrough', and then do research slowly at 'turtle speed', little by little you have results, the feeling is naturally completely different.

Deng Huanshan's heart was suddenly full of surprise and excitement, and he immediately went down to arrange the establishment of a new experimental team.

Wang Hao went to his office.

He is the deputy director of the Superconducting Materials Research Center, and he has his own office, which is always cleaned and tidyed even if he rarely comes to work.

When he arrived at the office, he turned on the computer to view the data, and also opened the task interface of the system by the way, and created a new research task.

[Task 3]

[Research Project Title: Research on the fabrication of anti-gravity materials containing first-order elements (difficulty: a.)] 】

[Inspiration value: 0.] 】

"Difficulty is only A?"

"Sure enough!"

"With sufficient basic support, the difficulty of anti-gravity material research is not high......"

……

Deng Huanshan is very efficient.

In the afternoon, he summoned more than 30 people to the conference room and explained that he would set up a temporary experimental group to study a special superconducting material.

Because there may be confidentiality issues, he did not mention 'anti-gravity'.

When they learned that Wang Hao personally led the team to conduct research, the technicians who came to the meeting were very much looking forward to it, and some of them were old men in the laboratory, who had studied superconducting materials with Wang Hao at the beginning.

They have the same feelings as Deng Huanshan, and they can't help but recall the 'fast breakthrough' in the past.

Others are looking forward to it as well.

At the same time, some people are also puzzled that luck plays a large part in the study of superconducting materials that they understand.

Although the field of superconductivity is supported by semi-topological theory, the theory only gives a direction, specific to material research, at most it is a 'combination of three elements', but the superconducting materials they study are very complex compounds, and even composite materials formed by multiple compounds.

The so-called 'three-element combination' and 'two-element combination' are at most just a direction.

If you want to study new superconducting materials, theoretical foundation, experience, and luck are all indispensable, and luck may be more important than the first two.

This is true for most materials research.

With the support of theoretical foundation and experience, it takes luck to achieve results, and if you are lucky, you can create a new material with superconducting properties.

If you are unlucky, no matter how hard you try, the materials you create will not have superconducting properties.

To put it simply, there is a clear direction for the study of superconducting materials, but there is no fixed method, and many times, luck can play a big role.

Even if Academician Wang personally leads the team to do research, can he determine the research of new superconducting materials?

……

Soon.

The new experimental group was determined, with a total of twenty-seven people, and was divided into five groups, and then Wang Hao appeared in the conference room to briefly explain the research content.

Then it's time for the next step.

Wang Hao asked each group to prepare a report and write an idea of the direction of the experiment, and the first step in the research was naturally to brainstorm.

After that he waited for three days.

On the afternoon of the third day, Wang Hao came to the Superconducting Materials Research Center again, asked the teams to hand in the reports, and then called a meeting with everyone.

He carefully reads each report and comments on each one.

The technicians who came to the conference were amazed.

At the same time, many people also lamented that Wang Hao took his work seriously, "I originally thought that the report would be submitted to Academician Wang for a few glances, but I didn't expect him to get comments at the meeting......"

"Academician Wang is amazing, our group studied the report written for three days together, and he knew what we thought after reading it?"

"It's incomprehensible!"

"Academician Wang's analysis of each report is he ready to determine the direction of the experiment?"

"He adopted some of our ideas, and if the research yields results, will we also contribute a lot......

When it was determined that Wang Hao was determined to determine the direction of the next experiment based on the reports of each group, many people suddenly came to their senses and felt that the work of the past three days had not been in vain.

At the same time.

While Wang Hao analyzed the report, he also paid attention to the system prompts--

[Task 3, inspiration +3.] 】

[Task 3, inspiration +2.] 】

[Task 3, inspiration +2.] 】

[Quest 3......]

【……】

"The speed of inspiration is so fast, it's worthy of an A-level mission!"

"Probably because there is a sufficient foundation for the study of anti-gravity materials, and many of the contents of these reports are very meaningful."

Wang Hao pondered, and then looked at the others with relief.

After the first meeting, the experimental group prepared the basic materials in accordance with the determined direction, and the research officially took the first step.

Within a week, the experimental group completed the preliminary study.

For the next research, Wang Hao continued to let each group think of the experimental plan and held a discussion meeting to analyze it.

Then, move on to the next step of research.

This kind of research method made everyone in the experimental group feel full of participation, and they all felt that the experiment was a way for everyone to brainstorm together and move forward quickly step by step.

Some people still have questions in their minds, "Is this research really possible?" ”

In the research of superconducting materials, a group is a group, and it can communicate with other groups, but there is no such thing as brainstorming and learning from each other's strengths.

Because, there are many ways to make a material.

When it comes to researching in one direction, no one knows which method is the right one.

Wang Hao didn't care about other people's questions at all, he just led the experimental team to do research step by step in his own way.

Soon.

Inspiration is over 100 points.

He convened a discussion meeting again to summarize the previous experiments, the methods that were determined, and the preparation of basic materials.

Through a series of analyses, he, together with Deng Huanshan, Lu Jinyu and others, identified three material preparation processes.

The three material preparation processes also produce three materials.

The experimental team conducted superconductivity tests on the new materials manufactured one by one, and two of them did not have superconducting properties.

Finally, superconductivity is detected at a temperature of '163 k'.

When the superconducting properties of the material and the critical temperature of 163K were determined, everyone in the experimental group boiled, "Success!" ”

"It really worked!"

"The third new material, which has superconducting properties and a critical temperature of up to 163 K, may be very practical......"

"If I remember correctly, it's only been nine days, right? In nine days, a new superconducting material was developed......"

"It's amazing!"

Those who have doubts about Wang Hao's research on superconducting materials have already thrown the doubts in their hearts out of the clouds.

Nine days!

Wang Hao led the team to develop a new superconducting material in only nine days.

This speed is incomprehensible!

Because they couldn't understand it at all, they also understood accordingly, "It's really a matter of luck for us to study superconducting materials." ”

"However, Academician Wang is different."

"The understanding of superconducting semi-topology is his achievement, and his understanding of superconducting materials is simply not something we can imagine."

……

And that's just the beginning.

Wang Hao's mission is to 'research and manufacture anti-gravity materials containing first-order elements', and it is obvious that there is far more than one kind of material that meets the requirements, but there are many and countless kinds.

After completing the research of the first material, perhaps with more foundation and direction support, the growth rate of inspiration value has not decreased, but increased.

Every time you hold a research meeting, you can add a lot of inspiration.

Even in the laboratory room, looking at the experimental methods of material preparation, you will continue to get inspiration points, and soon the inspiration points will exceed 100 points again.

And then, again, a new material.

The people in the experimental group cheered excitedly again, "Another new material? Critical temperature 138K? The first-order iron content is very high, and it can carry a larger current......"

"This material could be valuable as well!"

"Our luck is also too good, and we have researched two superconducting materials in more than half a month......"

"What luck is because of Academician Wang!"

“……”

Research continues.

Soon.

After another week, Wang Hao identified four material preparation schemes, two of which made new superconducting materials.

The people in the experimental group were not so excited.

Because......

They feel a little numb!

In the past, the research on a new superconducting material would be a very good result, and it is worth celebrating within the research center.

In less than a month, Wang Hao led a team to quickly research four new superconducting materials.

Those who had doubts about the research led by Wang Hao finally understood why they were so excited when they heard that Wang Hao led the team, whether it was Deng Huanshan or the old people in other research centers.

If they hadn't followed the research step by step and participated in the whole process, they wouldn't have believed that there would be such a thing.

The same goes for ......

Even though they were involved in the whole process and the research was full of participation, they still didn't understand why it was progressing so quickly.

In the end, they could only make the same exclamation, "Sure enough, it's Academician Wang Hao!" ”

"He has developed the theory of superconducting semitopology, and the understanding of superconducting materials is not at all something we can understand!"

"Academician Wang Hao himself is not a ...... that we mortals can imagine"