From University Lecturer to Chief Academician

After completing the determination of the resistivity of the first-order silver, Hu Xiuquan's research team was already red-eyed.

The test results of the first-order gold before are already exciting enough, but the first-order gold is gold after all, and it is upgraded gold. The market price of gold is several hundred yuan per gram, and the upgraded gold must be even more expensive. It's expensive, just double or double it, and the price of one gram can exceed a thousand yuan.

"If the first-order gold is only sold for 1,000 yuan per gram, it is too cheap." They also discussed after the measurement of the resistivity of the first-order gold, and concluded that even if the first-order gold can almost achieve superconductivity, the universal The field of application is only the most high-end.

For example, mobile phones.

High-end mobile phones on the market can sell for 5,000 to 10,000 yuan, but using first-order gold as the internal metal conductor requires about 50 grams.

Even if the price of first-grade gold is 1,000 yuan per gram, the material cost of the wire is as high as 50,000 yuan, and the mobile phone as a whole may be able to sell for more than 80,000 yuan.

Even in countries with very high incomes it is not the average consumption level.

Tier 1 silver is different.

Although it was only a test, because the data differed by an order of magnitude, they are very sure that the resistivity of first-order silver is lower than that of first-order gold, and most fields can be used as superconducting materials.

The market price of silver is only about five yuan per gram, and the first-order silver has increased twenty times, and it is only one hundred yuan per gram.

Similarly, to manufacture a high-end mobile phone, the material cost of 50 grams of metal conductor material is only 5,000 yuan, which is relatively too much for Pratt \u0026 Whitney.

Everyone in Hu Xiuquan's research team was red-eyed, and they were very convinced that the test they were doing was a super big result.

As long as it is released, it will definitely shock the whole world.

"Hurry up, it will be finished tonight!"

"It must be done!"

"The experiment must also be rigorous, and the data obtained must be more accurate. I don't want the data to be corrected by other organizations after the results are published in the future..."

"At that time, it will really become a joke!"

Hu Xiuquan said in an orderly tone.

After that, they continued to work on the measurement experiment. The experiment itself was not difficult, and it was completed step by step according to the established steps.

In the middle of the measurement experiment, Hu Xiuquan also sighed softly, "I finally know why many people in the Institute of Materials Science and Technology, Chinese Academy of Sciences don't like Wang Hui..."

Before Hu Xiuquan worked in the Institute of Electrical Engineering, Academy of Sciences, he knew many scholars from the Institute of Materials Science and Technology, and discussed many academic issues together.

Wang Hui was the one who was 'disliked' by the scholars of the Materials Institute.

As for the reason...

"They're just jealous!"

"You see, we were transferred here to work without doing anything, and the results were delivered directly to our door, and it was a major achievement, an international major achievement, enough to cause earth-shaking changes in human science and technology, and a major achievement recorded in the annals of history."

"I have a hunch..."

"Soon, we'll be jealous too!"

Wang Hui was envied by the scholars of the Institute of Materials Science and Technology, because he followed Wang Hao to do research, almost waiting for testing in the laboratory, and he was able to make many amazing discoveries.

These achievements belong to the annihilation force field experiment group, but Wang Hui is the direct person in charge of the detection, and will definitely share part of the results. At least he can write a heavyweight paper based on the detection process.

I have to say, this feeling is really good.

Hu Xiuquan couldn't help laughing when he thought about it, "We will be jealous in the future, but I don't regret it, the future is boundless with Academician Wang!"

"Whoever regrets it, please apply to leave immediately."

"I will directly sign and approve!"

A deputy team leader said with a smile, "Professor Hu, why don't you apply to leave...I'll be the team leader?"

Hu Xiuquan stared hard, and answered with one word, "Get lost!"

The others immediately laughed.

...

The next day, the measurement results came out.

The resistivity of first-order silver is 2.73x 10^(-14)Ω.m.

Hu Xiuquan's team also re-tested the resistivity of first-order gold, and confirmed the result again to be 1.91x 10^(-13)Ω.m.

This is a very significant discovery.

Without waiting for other research results, Wang Hao asked someone to write a report and submit it alone, and the report was noticed by Teacher Xu immediately.

"First-order gold, first-order silver, almost superconducting?"

"That is to say, many fields can be regarded as room temperature superconducting metal materials? This..."

"correct!"

Teacher Xu was surprised by the content of the results, and suddenly thought of what the decision-maker, Teacher Zhao, said, so he asked people to submit the report to Teacher Zhao.

Teacher Zhao quickly came to the science and technology department.

"The last time I went to the experimental group, I knew that first-order gold, and black silver, did not expect to make first-order silver so soon?"

"2.73x 10^(-14)..."

"This data..."

Mr. Zhao is a bit difficult to evaluate. He just knows that "many fields are close to superconductivity", but the specific situation is not clear.

They simply asked Academician Zhang Guiyuan, an expert in electronic circuits.

Academician Zhang Guiyuan works at the Science Foundation. When he heard the question, he felt a little confused, so, "Mr. Zhao, the resistivity data you mentioned...is a bit illusory!"

"What do you mean?" Teacher Zhao was a little confused.

Zhang Guiyuan said, "This is impossible at all. The resistivity of single metals is the lowest. Because of this, most conductors are made of simple metals. For example, copper is the most used."

"The resistivity of copper is only 1.75×10^(-8)..."

"The data you mentioned is simply impossible. What's the point? If a certain metal has this resistivity, it's equivalent to room temperature superconductivity."

"Stop making such jokes..."

Teacher Zhao's face turned dark when he heard it. If the other party was not an old academician, he would have wanted to scold and criticize directly for an hour.

joke?

Did he bring the other party here just to make a joke?

Zhang Guiyuan noticed that Mr. Zhao's expression was not good, and he also felt that what he said was a little too much, so he said quickly, "That's right. This figure is really too low, it's more than 500,000 times lower than copper!"

"This is, so to speak, the data for superconductors."

"The resistance of superconductivity is not zero. One reason is that there are impurities in superconducting materials, especially metal superconductors, and it is impossible to completely eliminate the interference of impurities."

"In addition, factors such as thermal resistance and contact resistance between the superconductor material and the external environment will lead to energy loss and resistance."

"Superconductivity with zero resistance is only an ideal state. Even at low temperatures, there is still very, very weak resistance."

"So, this can be regarded as a superconducting material!"

Teacher Zhao let out a sigh of relief, and looked at Zhang Guiyuan amusedly. He finally knew why Zhang Guiyuan had the nickname 'Da Pao'.

This guy's mouth is really disgusting.

Teacher Zhao still responded, "Wouldn't it be better if you said that earlier? Since I asked you, there must be a reason."

"real?"

Zhang Guiyuan suddenly realized, "Is there really such a metal? What group researched it? It's still a book, it is superconducting..."

Teacher Zhao shook his head and said, "Okay, you can go back."

"..."

Zhang Guiyuan held his breath in his chest and almost suffocated himself to death. He wanted to know the specific reason, but he let himself go?

What's the difference between this and reading a novel and being an eunuch as soon as the climax is reached?

Zhang Guiyuan's answer reassured Mr. Zhao and Mr. Xu, and then they couldn't help being excited. First-order silver can be regarded as a room temperature superconducting material.

Room-temperature superconducting materials can lead mankind to realize a scientific and technological revolution, and around room-temperature superconducting materials, huge economic benefits can be easily created.

There is no need to consult experts and scholars in this regard.

Taking mobile phones as an example, if some mobile phone manufacturers can obtain first-grade silver materials, the high-end mobile phones they manufacture will surely occupy the market easily.

Other mobile phone brands will instantly become uncompetitive.

First-order silver is placed on high-end electronic products, and the cost can be said to be inclusive. For example, a high-end mobile phone, the weight occupied by the internal metal conductor is not high.

Generally speaking, high-end mobile phone metal materials account for about 30% of the total weight of the mobile phone.

Among them, copper, which plays an important role, accounts for about 20% of all metals, silver accounts for about 5%, and others include nickel, gold, tin and so on.

However, most metals are not conductors.

For example, the role of gold is mainly stability protection, because the chemical properties of gold are the most stable, and tin, which occupies a large proportion, is used for circuit 'soldering'.

These are not 'replaced'.

So how many metal superconductors are needed to make a "superconducting" mobile phone? Probably only about 50 grams is enough.

This is also the case with complete replacement of the conductor.

In fact, the resistance of first-order silver is extremely weak, and only a little bit is enough to play the role of "conventional superconductivity". In the case of maintaining the performance of "superconductivity", the dosage can be greatly reduced, and a reduction of two-thirds is very important. Easy.

If the price of one gram of first-grade silver is 100 kinds of coins, more than 10 grams is more than 2,000 kinds of coins, and it will only increase the manufacturing cost of mobile phones by 2,000 kinds of coins.

In the face of 'superconducting' performance, the cost of adding two thousand coins to high-end mobile phones can even be completely ignored.

Such a phone can easily occupy the high-end market.

It is conceivable how huge the economic benefits contained in it are.

This is just one area of ​​mobile phones.

Human life is completely inseparable from electricity. There are too many fields related to electricity to count, and the economic benefits contained in them are too huge to measure.

The only thing is...

"First-order silver, is it related to the study of annihilation force field?"

Teacher Xu raised key questions.

At present, domestic β-type future element materials are prohibited from being exported, or even sold domestically. Only top scientific research institutions can obtain a small amount of β-element materials.

The reason is that the β element is related to the study of the annihilation force field.

If other countries and institutions, especially the Groom Lake project team and the International Annihilation Theory Organization get β element materials, they can develop corresponding superconducting materials and use them in the research of strong annihilation force field technology. To achieve catch-up from the key technology.

Teacher Xu thought of the key point and immediately contacted Wang Hao.

Wang Hao's answer is no.

"First-order silver has nothing to do with the study of annihilation force fields!" He said with certainty, "Theoretically speaking, elements that do not have special phenomena cannot be used to create annihilation force fields."

"So, there is no need to worry about the first-order gold and first-order silver."

"These two first-order elements seem to exist for the purpose of superconducting at room temperature..."

There was an exclamation in his voice.

The universe is very wonderful, everything has its positive side and its negative side.

Gold elements and silver elements will not produce special phenomena under a strong annihilation force field, so they have no benefit in creating an annihilation force field.

For other elements with special phenomena, the production of special phenomena itself will interfere with the annihilation force field, but to solve the problem of special phenomena and create the corresponding β element, the problem of special phenomena will be solved, and it will also benefit the creation of annihilation force field .

This is not to say that superconducting materials cannot contain gold or silver elements, but that gold or silver elements have no direct benefit to the 'annihilation characteristic'.

...

First-order silver is just one of the discoveries made by the annihilation force field experiment team.

They also discovered 11 brand-new upgrade elements at the same time, which also verified Wang Hao's judgment on element upgrades, "Above 16 times the annihilation force field is the 'high-incidence period' for element upgrades, which are only a few times higher. It is enough to discover a large number of upgrade elements."

For the next half month, the annihilation force field experiment team was busy with testing and summarizing.

At the same time, high-end decision-makers have held various meetings, preparing to develop room-temperature superconducting technology with the "first-order silver material" as the core, and to maximize the possible realization of economic benefits.

On this day, there was a shocking news in the world.

A superconducting research institution in the country of kimchi announced that it has successfully developed superconducting materials at room temperature and pressure. Jin Rongzheng, the head of the research and development team, introduced their results in an interview with reporters. "We used first-order iron to create a hexamolecular Ultra-thin sheet kj033."

"This ultra-thin sheet has superconducting properties at room temperature and pressure."

"We've done a lot of tests and think it's superconducting..."

Kim Young-jeong gave a detailed introduction and said, "Our paper will be published in the journal "Superconducting and Alloy Physics."

"I believe that this achievement will change the progress of human science and technology..."

He was even a little excited as he spoke.

"Superconductivity and Alloy Physics" is a well-known physics journal under the American Institute of Technology, and its academic influence is still very high. It mainly publishes research papers in the field of alloys and superconductivity.

A reporter interviewed the editors of the journal "Superconducting and Alloy Physics". They confirmed the contribution of Jin Rongzheng's team, but they did not say "it will be published".

"We also need rigorous review."

The editor-in-chief of the review said so.

The research of Jin Rongzheng's team has been made public, and they even provided ultra-thin sheet materials produced in the laboratory to several top institutions.

soon.

A top institution stood up and said, "The magnetic experiment of kj033 meets the superconducting standard."

But later, another agency said, "Some tests of kj033 did not meet the standards, so it cannot be confirmed that it is a superconducting material."

Opinions vary in the academic field.

Many institutions have publicly stated that they plan to reproduce and manufacture kj033, and conduct more detailed measurements.

Even though there is still a lot of controversy in the academic circles, it has directly affected the international financial market, and superconducting-related concept stocks have soared.

Some concept stocks even soared several times.

American, Japan, and several continental countries all have organizations involved in the corresponding replica experiments and testing of kj033.

In contrast, the country appears to be calm.

Although some domestic institutions also expressed that they would replicate the experimental production of kj033, there was almost no follow-up until one day a week later.

"Annihilation Physics and Theory" released the latest issue, which published a "very plain" news, "The Antigravity Behavior Research Center discovered first-order gold elements and first-order silver elements through annihilation force field experiments."

"During the detection of the two elements, they both showed amazing electrical conductivity."

"Among them, the resistivity of first-order gold is 1.91x 10^(-13)Ω.m, and that of first-order silver is 2.73x 10^(-14)Ω.m..."