Liu Yunli guessed right.

Wang Hao is indeed confident in the verification of DC anti-gravity characteristics, and he predicts that there will be materials that meet the requirements of DC anti-gravity.

This is not a plain estimate, but a conclusion drawn from experience.

So far, only two high-voltage hybrid materials have been used in the study of DC anti-gravity, which seem to be completely unrelated to metallic superconducting materials, but it is still possible to find some correlation.

For example, both high-pressure hybrid materials have the anti-gravity properties of AC superconductivity.

This leads to the loose conclusion that materials with DC anti-gravity properties must have AC superconducting anti-gravity properties.

From the study of the anti-gravity properties of first-order iron superconducting materials, it can also be found that whether they can excite anti-gravity properties before reaching the superconducting state has a certain relationship with the chemical bonds of metal compounds.

It is impossible to draw conclusions from similar studies until there is enough data to support them, but there are still some conclusions that are not rigorous and may be of great help to the experiment.

For example, the covalent bonds of first-order iron.

There are three types of chemical bond links between compound atoms, one is an ionic bond, one is a covalent bond, and the last one is a metallic bond.

Ionic bonds are formed by electron transfer between atoms to form positive and negative ions, which are formed by electrostatic action.

Metallic bonds, which mainly occur in metals, are formed by a combination of electrostatic attraction between free electrons and metal ions arranged in a lattice.

A covalent bond is a condition in which two or more atoms share their outer electrons to ideally reach a state of electron saturation and thus form a relatively stable chemical structure.

The essence of covalent bonding is the electrical interaction between electrons and two nuclei that occurs between two nuclei with a high probability after atomic orbitals overlap.

Based on the data of the anti-gravity experiment, and then comparing the elemental composition analysis of the compound, one conclusion can be drawn.

The more covalent bonds formed by first-order iron, the more likely it is that the anti-gravity field will be excited at a state higher than the critical temperature.

This conclusion is very loose.

However, Wang Hao can determine that materials containing first-order iron can excite antigravitational fields and covalent bond correlation through 'correct feedback'.

Of course, there are many factors that are associated with anti-gravity properties.

Covalent bonds are just one of them.

Among the various related factors, it is also difficult to judge the importance of covalent bonds, which is why Wang Hao's statement is 'there may be one or two'.

He was still looking forward to the experiment.

This is followed by continuous experimental preparation, and verifying the DC anti-gravity characteristics for each material is a very complex task.

DC anti-gravity is much more complex than AC superconducting anti-gravity.

If the difficulty of designing the layout of AC superconducting anti-gravity materials is rated as '100', then the difficulty of DC anti-gravity related work will reach '300, 400', or even more.

Experiment preparation is time-consuming.

After more than two weeks of hard work, they verified the most anticipated anti-gravity field, FCW-031, which was excited by AC superconducting anti-gravity experiments with an anti-gravity field strength of 7%, the highest value among several materials.

It's a pity.

Finally, the experimental results show that FCW-031 does not have DC anti-gravity characteristics.

When a lot of data analysis work was over and Wang Hao confirmed the results, there was a tone of disappointment in the conference room.

"FCW-031 does not have DC anti-gravity characteristics? It's the most promising. ”

"It's normal to fail......"

"But it's still frustrating, we've done so much work."

Liao Jianguo sat next to Liu Yunli, he turned his head and whispered, "Professor Liu, what do you say now?" The experiment failed. ”

Liu Yunli glanced at Wang Hao and replied very calmly, "What's the big deal, we have to experiment with several materials, but it's just the first one." ”

"Hopefully......"

Wang Hao was also very calm, he announced, "Let's prepare for the next experiment." ”

"Let's try the No. 25 material (FCW-025), which also has first-order iron and first-order lithium, which is very special and may have DC anti-gravity characteristics."

FCW-025 contains first-order iron and first-order lithium, which is a very complex metal compound.

At the same time, FCW-025 is also the weakest anti-gravity field strength among several materials, and the superconducting state is only 0.58%.

This material is used to detect DC anti-gravity properties......

"Will it work?"

"Academician Wang said that he tried it, I think there may be hope."

"Material 25 is really special, with the most complex elemental composition and the lowest excitation anti-gravity field strength."

"First the highest 31, then the lowest 25, Academician Wang arranged the experiment regularly."

"Just follow along......"

……

When Wang Hao was concentrating on the verification of material properties, public opinion at home and abroad was already boiling over the new discoveries of the annihilation force field experimental group.

A new issue of Physics and Theory of Annihilation has been released.

The first article, titled "New Discoveries of Higher-Order Materials: First-Order Carbon", quickly attracted the attention of all concerned journal scholars.

Soon the news was out of academia.

Many media that pay attention to the research of the strong annihilation force field have reported on the discovery of first-order carbon, and several of them are also influential international media, and each of them has very eye-catching headlines.

"Wang Hao's team discovered first-order carbon, and the third element is actually a non-metal!" 》

The most important Ascending Element has been discovered! 》

"The way out of this year's biggest physical achievement, first-order carbon is far more important than first-order lithium!" 》

First-Order Carbon: The Beginning of Human Sublimation! 》

"The discovery of first-order carbon is destined to promote scientific and technological breakthroughs!" 》

First Order ......

The popularity of public opinion this time is much higher than that of the discovery of first-order lithium, mainly because carbon is too important.

There was a lot of media coverage and a lot of commentary and analysis.

Carbon is one of the most important elements.

Carbon is indispensable for known living systems, without which life would not exist, and life on Earth is also known as carbon-based life.

Some media analyses and reports start with the importance of carbon to life, and their analysis is very interesting.

They believe that the discovery of first-order carbon may sublimate the essence of human life.

"It is the most important component of living beings."

"If all the ordinary carbon elements in the human body are replaced with first-class carbon elements, will the essence of human life be improved?"

"The first-order elements can be higher than the 'order' of ordinary elements......"

“……”

This statement has no scientific basis, but in public opinion, it has caused widespread heated discussion, after all, no scientific basis does not mean that it is wrong.

Many people have talked about "first-order carbon to sublimate humanity", "If all carbon becomes first-order carbon, I will definitely become stronger." ”

"What's so great about being strong, fitness can do it. I think that first-order carbon can make me superhuman and have some special abilities, such as emitting light waves. ”

"It could also be an immortal, or a god."

"I think the biggest possibility is that when you have a lot of first-order carbon, you're going to get cancer very quickly......"

"First-order carbon is likely to be toxic."

"What if the body adapts? It's hard to say, I've read research reports that say that the chemistry of the higher order elements is the same as that of ordinary elements......"

"That must be different."

“……”

Some media analyze from a scientific point of view, popularizing some knowledge of carbon elements, so that more people can understand the application field of first-order carbon.

In simple terms, very broad.

Carbon is widely found in plants and animals, and the main economic use is in the form of hydrocarbons, which are simply oil and gas.

In addition, carbon is an important component of alloy materials.

Carbon and iron can form alloys, the most common being carbon steel; Graphite can be mixed with clay to make pencil leads for writing and painting, graphite can also be used as a lubricant and pigment, as a molding material for glass manufacturing, for electrodes and electroplating, electroforming, brushes for electric motors, and as a neutron deceleration material in nuclear reactors.

Wait a minute.

The applications of carbon are simply too widespread.

After the discovery of first-order carbon was determined, the research and application directions were very extensive.

The academic community pays more attention to the short-term significance of the discovery of first-order carbon, for example, what direction of research can be done, first of all, alloys.

Carbon and iron are capable of forming alloys.

So relying on first-order carbon and first-order iron, it is possible to manufacture first-order alloy materials with a stable mentality, so what about the properties of first-order materials?

This has attracted much attention and has also caused a lot of discussion.

At the same time, there are some institutions engaged in the research of annihilation force field, which pay more attention to the data behind the newly discovered results - annihilation force field strength of 8.36.

To put it bluntly......

Wang Hao's team's strong annihilation force field technology has been improved again!

……

Virginia City, Nevada.

The Lake Groom Project research group is conducting R&D workshops, and Rost-Brook of Fermillab is giving a presentation on first-order element alloys.

A dozen of the top scientists listened to Brooke's report and whispered discussions from time to time.

George Weeks is also one of them.

It's just that he completely dismisses Brooke's report, because he doesn't think that alloys made of first-order elements can replace high-pressure mixed materials to create a strong annihilation field.

So far, they have found only one first-order ferroalloy with anti-gravity properties, but the strength of the anti-gravity field produced is negligible.

The same is true for first-order iron compounds.

They developed two first-order iron superconducting materials, one of which created an anti-gravity field with a strength of 0.93, and the anti-gravity field was excited at a temperature of 50 K above the critical temperature.

It's just that Gamov-Shapley is very stubborn and insists on researching metal compounds and alloys, which costs a lot of money.

George Weeks glanced up at Shapley and saw that the other party was not listening to Brooke's presentation, but was staring at the computer screen in a daze.

The scholar next to him also noticed it, so he reminded him in a low voice, "Mr. Shapley? Mr. Shapley! ”

Shapley was thrilled.

Everyone in the room looked over with confusion.

Gamow Shapley looked up in shock, he took a deep breath before he spoke, "Now there is bad news, good news. ”

"The bad news is that Wang Hao's team has made a new discovery."

"The good news is that they've found first-order carbon. If we get first-order carbon, we can use it to make pure first-order element steel, and study superconducting materials that contain more first-order elements. ”

The others were also stunned.

"First-order carbon?"

"Not kidding, right?"

"Really, look at the news, they published the results in "Physics and Theory of Annihilation......"

"It's really ......"

"This can't be fake!"

Everyone was talking about it.

They were so surprised.

Wang Hao's team is their direct competitor and catch-up target, and they have carefully analyzed the annihilation force field technology mastered by Wang Hao's team.

Putting together the information obtained in various ways, they thought that Wang Hao's team's annihilation force field technology had reached a bottleneck.

It is very difficult to break through this bottleneck.

The proof of this is that in the past few months, Wang Hao's team has not announced any new discoveries, most likely because the strength of the annihilation force field created has reached the upper limit.

Right now......

Another breakthrough?

"8.36 Ahh

"It's about 0.3 more than before, and this is an improvement...... It takes a long time, right? ”

There is not much difference between the 8 magnification and the 8.36 magnification, but it directly subverts their judgment on Wang Hao's team's mastery of technology.

The scholars in the conference room were in no mood to listen to any more reports, but discussed the technology of Wang Hao's team, "Their improvement this time is very unusual. ”

"From 8 to 8.36, technical improvements can also be done. However, there is little room for technical improvement in the production of strong annihilation force fields based on high-pressure hybrid materials. ”

"I think they may have mastered the technology of generating a strong annihilation force field based on metal superconducting materials containing first-order iron!"

"It's possible!"

"If so, will they continue to improve?"

“……”

Many scholars have lost confidence in what they say.

Gamov Shapley also feels the same way, and they are confident that they can catch up with Wang Hao's team because they judge that Wang Hao's team's technology has reached a bottleneck.

When competitors don't improve, it's only a matter of time before they catch up.

What if competitors are still improving rapidly?

Catching up, there is no hope at all!

"They are definitely based on metal materials, and they are studying the technology of generating strong annihilation force fields. So, the good news is that we're on the right track. ”

"Whether it's a metal compound or an alloy, there's hope for ......"

"I'm sorry, I had to leave."

Gamov Shapley stood up as he spoke, and he realized a very important problem.

The discovery of first-order carbon was very important for their research.

If there is a first-order iron and a first-order carbon, they are more likely to work out metallic materials that replace high-pressure hybrid materials.

The other party must know this problem.

So will first-order carbon be on the other side's sales list?

Gamov Shapley quickly left the conference room, and immediately contacted his superiors and the science and technology department of the flower planter, and tried to talk about the issue of first-order carbon.

"First-order carbon, it's so important!"

"Now I just found out, and it will definitely be very expensive for the other party to sell, if it is like first-order iron, it is impossible to buy it at all......"

"That's too expensive, a gram of 100 million dollars!"

Shapley had a bitter look on his face when he thought about the price.

With more than $50 billion in support, the Lake Groom Project sounds like a huge research project, but at a price tag of $100 million a gram, their funding is nothing.

In addition, not all funds are used to purchase materials.

Most of the funds still have to be invested in the construction of laboratories, the payment of staff salaries, and the cooperation with enterprises and institutions.

Among them, the salary of employees, the plan accounts for more than one-third.

"But we have to get first-order carbon, and even if we can't do research, we have to know the characteristics of first-order carbon."

"This also makes it possible to infer its potential to make annihilation force field materials."

"This is the most important job at the moment!"

“……”

(End of chapter)