In one month, Wang Hao led the experimental team at the Materials Research Center to prepare four superconducting materials containing first-order iron elements.
One of the materials has a critical temperature as high as 176K and is considered to have certain application value in the future.
Many people who participated in the research were very shocked, and the results were produced so quickly that they could not understand them at all.
In fact, Wang Hao is not only studying "first-order iron-based superconducting materials", but "first-order iron-based superconducting materials with anti-gravity properties." '
Simply put, four superconducting materials can support the creation of anti-gravity fields.
After completing the research on each material, Wang Hao asked the experimental team to manufacture it on a certain scale and provide it to the Antigravity Properties Research Center for testing the antigravity properties of the material.
As for the Antigravity Behavior Research Center, the person responsible for the inspection of new materials is Sheng Hailiang, the head of the annihilation force field material group.
Testing has already begun.
The annihilation force field material team has just been established and is not yet complete in many aspects. The testing of the anti-gravity properties of the materials still requires He Yi's special attention.
Therefore, the actual persons in charge are He Yi and Sheng Hailiang.
Wang Hao spent a month researching new materials. It was originally a short break, but he was called to the research center by He Yi and Sheng Hailiang.
"We've made a big discovery!"
The first thing He Yi said when he saw Wang Hao was a look of excitement and excitement, "It's amazing. You will never expect it."
Wang Hao suddenly became interested and guessed, "Is it related to the anti-gravity properties of new materials?"
"right!"
He Yi nodded seriously, and then explained in one sentence, "We discovered that new materials stimulate a normal-temperature antigravity field."
Although it is a very simple sentence, the message inside is too important.
Room temperature anti-gravity field!
Wang Hao thought he heard wrongly, so he immediately asked, "Anti-gravity at room temperature? Anti-gravity phenomenon was discovered when the material was energized at room temperature?"
He Yi nodded vigorously, "This is what we have just discovered. It is a material code-named cd101. The superconducting critical temperature is 149k, but anti-gravity properties have been detected at room temperature, and the strength is not bad, 0.5%..."
"What is the superconducting state?" Wang Hao asked immediately.
"0.7 percent."
He Yi felt a little unsure as he spoke. He said a little depressed, "Just like last time, the anti-gravity phenomenon was detected at a very high temperature. After lowering to the critical temperature, the intensity increased very little."
His tone was indeed a little depressed, but he was obviously very excited.
In the face of the discovery of the normal-temperature antigravity phenomenon, the antigravity intensity excited by the superconducting state seems not to be important at all.
Wang Hao nodded thoughtfully.
He naturally knows how important the new discovery is. Relying on a brand-new metal material to activate an anti-gravity field at room temperature, the release of the results will definitely shock the world.
But what he was thinking about was the principle behind it.
"The critical temperature is only 149k, but it can stimulate anti-gravity properties at normal temperature, which is close to 300k..."
"This shows that in the conductive state, the semi-topological structure formed inside is very unstable."
"Is it because of the first-order iron?"
"..."
The room-temperature antigravity phenomenon of first-order iron-based superconducting materials is indeed a very amazing discovery, but it is not good news for theoretical research.
Wang Hao discovered that after making new discoveries, it became even more difficult to apply the originally developed theory to first-order iron elements and related materials.
Semi-topological theory does not work at all for first-order iron.
Other related theoretical content cannot be used to study first-order iron at all, and even first-order iron and the superconducting materials it consists of show "almost irrelevant" properties compared to conventional antigravity materials and superconducting materials. state trend.
Wang Hao found experimental data related to anti-gravity materials and planned to analyze various materials, performance and anti-gravity characteristics.
Until now, there are fourteen types of materials that have been identified as possessing antigravity properties.
Three of them are high-voltage hybrid superconducting materials, and the rest are metallic superconducting materials. The fourteen materials can be divided into two categories.
Wang Hao put the materials together for research and found that the data was as confusing as he imagined.
Among these materials, some materials create an anti-gravity field strength as high as 65%, while some materials have a maximum of only 0.75%.
There are several materials that can also exhibit anti-gravity characteristics when the temperature is higher than the critical temperature, especially several high-pressure hybrid superconducting materials. When the temperature is higher than the critical temperature, the intensity of the anti-gravity field created is even greater. Higher.
When putting all the information together, Wang Hao just glanced through it and felt a headache.
He found it difficult to find correlations between materials and antigravity properties.
Later, he simply divided the materials into two categories, one was first-order iron-based superconducting materials, and the other was conventional superconducting materials. High-voltage hybrid superconducting materials were also classified into the second category.
Comparing the two, we found a little pattern.
"First-order iron raises the temperature threshold for stimulating antigravity fields?"
"At the same time, the antigravity field produced by first-order iron-based superconducting materials is generally not strong. Is it because the semi-topological structure is unstable?"
"That's why!"
"Can this instability be controlled? Or, in other words, can first-order iron-based superconducting materials solve the problem of breaking through instability to stimulate a stronger anti-gravity field..."
The last question is quite important.
If the problem of unstable semi-topological structures can be solved, it will naturally be possible to create a high-strength anti-gravity field at room temperature.
So based on this, we can infer that we can create a 'normal-temperature high-intensity strong annihilation force field'.
Wang Hao thought about it and found Ding Zhiqiang.
He talked about the issues of first-order iron-based superconducting materials and anti-gravity field strength, and even talked about the new discovery of 'normal temperature anti-gravity field'.
Ding Zhiqiang was naturally extremely surprised.
At the same time, he didn't understand why Teacher Wang Hao said this to him, and showed a depressed and painful expression.
Because he doesn't want to know.
There is certainly a certain level of confidentiality associated with these research results.
Ding Zhiqiang will also come into contact with the contents of results that involve confidentiality, but most of them are just "edges", the purpose is to understand the experimental results in order to study the theory.
It's different now.
Wang Hao found him alone and talked about the "room-temperature antigravity phenomenon of first-order iron-based superconducting materials." He shouldn't be studying theory with him, right?
why?
"The more you know, the more trouble you will have..."
Ding Zhiqiang thought with some distress, and he was also curious about what Teacher Wang Hao asked him to do.
Wang Hao continued, "I think the specificity of first-order iron makes the semi-topological structure formed inside the conductive state unstable."
"Therefore, the anti-gravity effect can be detected at very high temperatures. At the same time, when the superconducting state is reached, the anti-gravity field strength does not increase much."
"So is there a possibility..."
He continued thinking, "First-order iron is a special element created by a strong annihilation force field. However, using first-order iron to conduct annihilation force field experiments has its own flaws..."
"Or some kind of cap?"
Ding Zhiqiang reacted immediately, "Teacher Wang, are you talking about the strong annihilation force field?"
"I see!"
"First-order iron only shows a stable state because it is in a conventional annihilation force field environment. It is different from the 'first-order iron' formed by the natural development of the universe, so it shows specificity."
"Using a strong annihilation force field to create first-order iron, and then using first-order iron to conduct annihilation force field experiments will definitely be restricted."
"For example, the strength of the upgraded annihilation force field of iron is around 5.8, so if you use first-order iron to create a strong annihilation force field, the strength cannot exceed 5.8, right?"
After he finished speaking, he looked at Wang Hao expectantly.
Wang Hao nodded vigorously, "Yes, that's it. Now I can be sure."
"Then the next step..."
"Next step?"
"Aren't you going to do research?"
"No, it's done. You can continue to do your own thing." Wang Hao waved his hand casually, indicating that Ding Zhiqiang could leave.
Ding Zhiqiang walked out of the office full of doubts.
He couldn't figure out what Teacher Wang Hao asked him to do. "Tell me about a new experimental discovery and let me make inferences?"
"Then it's over?"
"Test me?"
"why?"
On the other side, Wang Hao breathed a sigh of relief. The purpose of coming to Ding Zhiqiang was to confirm his conclusion.
If he came up with the conclusion on his own, he couldn't be sure whether it was correct.
When you lead others to think of the same conclusion, correct thinking will be fed back to your mind, and you can determine whether the conclusion is correct.
If there is feedback, it is naturally correct.
Without feedback, it’s not necessarily the case.
The conclusion is somewhat regrettable.
His original plan was to use first-order iron and first-order lithium to create new metallic superconducting materials to support the creation of stronger annihilation force fields.
result……
It's not possible!
Both first-order iron and first-order lithium have specificity and can increase the temperature threshold of the annihilation force field, but the strength of the created annihilation force field will also be limited.
This conclusion makes the previous doubts suddenly clear, and at the same time, it also denies a very important research direction.
"But it's also important that first-order iron raises the temperature threshold."
Wang Hao thought, "Whether it is an anti-gravity field or a strong annihilation force field, there is still too little international research."
"A lot of basic research has to be done by yourself. When you encounter technical bottlenecks, you can't find information in other directions."
"If the threshold for annihilation force field research can be lowered, more institutions will participate, and by then, many basic results will be achieved."
“In this direction, it doesn’t matter how many institutions participate.”
"Anyway..."
"There is also an upper limit to the strength of the annihilation field created by first-order iron..."
…
At the same time, on the other side of the earth.
Amrican's first decision-maker signed his name on an important scientific document.
This document is the Groom Lake Plan.
After several rounds of revisions, the "Groom Lake Project" finally passed the review of various departments, and it was decided to allocate funds to support the research of strong annihilation force fields.
However, the total funding was more than double the original plan, leaving only $53 billion in total.
Of course, $53 billion is also very large.
The "Groom Lake Project" was promoted by Druk-Bent, and it also improved Druk-Bent's reputation a lot.
The overall person in charge of the project is Gamow Shapley.
Gamov-Shapley is a well-known scholar in the field of quantum physics. He has made great achievements in the research of particle accelerators and is also the head of Fermilab.
The reason why he became the person in charge of the "Groom Lake Project" was because he opposed all opinions at the decision-making meeting and called for the plan to focus on the new direction of research on "metal materials".
"The International Annihilation Theory Organization also uses high-voltage hybrid superconducting materials, and its direction is to manufacture complex equipment costing tens of billions of dollars."
"According to their direction, our research and development speed of annihilation field technology will be greatly limited."
"Just like the previous discussion, within two years, it is best to increase the intensity to 6, and this is still the ideal data."
"In this direction, I dare say that Wang Hao's team has reached the extreme. The strength of the annihilation force field they created has reached 8."
"How long will it take us to catch up?"
"As for the other direction, standardized basic manufacturing, it is simply a liar's statement. The cost is too high, and it may not be correct."
"We need to find a new direction, the best direction!"
"Using metallic superconducting materials to create strong annihilation force fields is the best direction. I believe Wang Hao's team must also be studying this!"
"We can't fall behind!"
“Only in a new direction can we have a chance to catch up!”
"What's more, now that we have first-order iron and first-order lithium, the flower grower's new company will be established soon, and they will officially sell it to the outside world."
"Let's study first-order iron and first-order lithium, study this super element, and use super elements to create a stronger annihilation force field. By then, we will be able to rely on new technologies to create first-order iron and first-order lithium. Lithium..."
"At that time, the monopoly of flower growers will be broken!"
"Technically catching up!"
"We have the best team of scientists in the world, the largest funding and scientific and technological support..."
Gamow-Shapley gave an inspiring speech and convinced most of the academics and policymakers attending the meeting, including the No. 1 decision-maker and Druk-Bent.
In the end, Gamow Shapley was nominated by several decision-makers and became the general director of the Groom Lake Project.
The Groom Lake Plan was successfully passed.
The next step is to build a large-scale experimental base near Groom Lake and invite more scholars, institutions, and experimental groups to participate in the plan.
Gamow-Shapley was thinking about research problems.
After determining the new direction of 'metal materials', he focused on the research of upgraded elements, including first-order iron and first-order lithium, and studied the superconducting materials produced by them.
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Gamov Shapley and several top scholars believe that superconducting materials made from 'super elements' can create stronger annihilation fields.
If it’s a regular element…
"That's almost impossible to do!"
“If they could, why would florists use high-pressure mixes?”
"Super elements are the opportunity to catch up!"
After they determined the main direction, they paid attention to the formation of the new company of Huazhuangjia, and contacted the technology department in advance, hoping to purchase first-order element materials in large quantities.
