9,10 is the limit value of the force field strength.

The existence of this limit value is mainly affected by the characteristics of superconducting materials, and it is impossible for them to find a more suitable material in a short time.

So the pace of research also slowed down. Half a month later.

The base conducted a new experiment, increasing the annihilation field strength to '8.03', and the first-order iron content in the raw materials also increased to "2.66%"

At this time, Wang Hao was no longer anxious. He simply announced that the experiment was suspended and gave the researchers a few days off to let everyone relax a little.

After that, he also returned to Sokai University. Everyone needs a rest.

The past few months have been too busy. In addition to demonstrations and experiments every day, he also felt very tired.

However, Wang Hao still couldn't help but think about the experimental problem.

In fact, the improvement of first-order iron content was not at all on Wang Hao's mind. He paid more attention to the theoretical principles.

Now there are two problems with the experimental results.

One problem is that a second element that undergoes electronic transitions has not yet been discovered.

why?

"Iron, 6.66, the current force field strength exceeds 8, there should be electronic transitions in other elements, right?"

"Also, what is the principle of electron transition? If it were just the intensity of the magnetization reaction, nickel would have already reached the standard..."

Another question is also critical.

That is the manufacturing problem of first-order iron.

First-order iron is produced when conventional pure iron materials are squeezed by a strong annihilation force field.

So the question arises, "Why doesn't the content of first-order iron continue to increase when the same material is exposed to a strong annihilation field for a long time?"

"What's the principle behind it?"

"Could it be that the first-order iron element itself has developed some resistance to the strong annihilation force field and 'protected' other iron elements that have not undergone electronic transition?"

Wang Hao thought carefully and still had no clue. "It seems that we still need to conduct research on first-order iron to know the answer."

"However, this kind of research cannot be completed with materials in units of 'grams'. At least it can be done in units of 'kilograms'."

He thought about simply filing a confidentiality application, asking the Materials Testing Center to cooperate in manufacturing several kilograms of first-order iron, and setting up a special confidentiality group to conduct relevant research.

During the process of writing the application, Wang Hao also felt very depressed.

It is obvious that first-class iron materials can be manufactured in large quantities, but it turns out that manufacturing requires an application and a special team is set up to conduct research. The purpose is not to let the matter of "mass production" leak out.

This is a bit depressing...

After Wang Hao applied, he waited for arrangements from the science and technology department. His application would definitely be approved.

The science and technology department will organize and arrange a "confidential team", and when the time comes, research will be conducted in a specific confidential laboratory according to his needs.

Of course, the personal freedom of those participating in the research will be restricted, and they will certainly not be able to contact the outside world for a short period of time.

This kind of thing is absolutely confidential, even more confidential than the research on strong annihilation force fields. After all, 'mass production' is just a few words, and the technology to generate strong annihilation force fields cannot be easily passed on.

Even said...

except king

Except for Hao himself, no one else fully understands the strong annihilation field generation technology and can reproduce the device alone.

There are many factors involved.

For example, special high-voltage hybrid superconducting materials. For example, DC power environment.

For example, material layout at key locations, etc.

While waiting for news from the science and technology department, Wang Hao received news from the Materials Testing Center. Professor Wang Hui asked him to go there when he had time.

Wang Hao simply went over.

The place where Wang Hui works now is still called the Material Testing Center, but it is located next to the Annihilation Field Experiment Base, a newly built laboratory.

When Wang Hao arrived at the material testing center, he went directly to the operation room in the back row.

This chapter is not over yet, please click on the next page to continue reading! After waiting for a short time, Wang Hui walked out of the operation room and immediately said when he saw Wang Hao, "Academician Wang, I have a new discovery, which is very interesting."

"What did you find?"

"Lithium carbonate." Wang Hui said the name of the material, and then said, "In the last experiment, after we tested all the materials, Professor Zhou carefully analyzed the data and discovered a problem."

"Compared with other materials, the magnetization reaction intensity of lithium carbonate is low."

"Low?" I can't explain in a few words.

Wang Hui simply took Wang Hao to the office, and then turned on the computer to find the information, which showed the magnetization reaction curves of several materials.

The Y-axis of the curve is the annihilation force field strength, and the X-axis is the measured magnetization reaction intensity.

The higher the intensity of the annihilation force field, the higher the intensity of the magnetization reaction.

The relationship between the two is not directly proportional. As the annihilation force field intensity continues to increase, the magnetization reaction intensity increases less. The normal curve is a logarithmic trend.

The trends of the curves of other solid compounds are very close.

The magnetization reaction curve of lithium carbonate, after reaching the intensity value of '7.17', tends to be much lower than other curves.

Wang Hao stared at the computer screen carefully and said thoughtfully, "It is indeed a lot lower. Normally it shouldn't be like this."

"This is indeed worth studying."

Wang Hui immediately asked, "When Professor Zhou mentioned it, he felt it was unusual. Academician Wang, what do you think is the reason?"

Wang Hao did not answer immediately.

While staring at the screen carefully, his mind kept spinning, carefully considering every possibility, and finally settled on two words, "Upgrade!"

"Upgrade?" "Yes!"

Wang Hao said seriously, "Lithium element! Upgrade!"

Wang Hui suddenly opened his mouth and didn't say a word for a long time. When he and Zhou Qing were discussing, they both felt that the matter was unusual, but they never expected that it would involve the issue of elemental upgrade.

First order lithium element?
Chapter completed!