The internal discussions were very fruitful.
One is to improve some theoretical content of force fields. Helen's research is very detailed, and some of them have also provided correct feedback.
Some of her research and analysis on force field changes are remarkable.
But the most important gain comes from Ding Zhiqiang. From a logical perspective, Ding Zhiqiang believes that a force field appears between atoms, which balances gravity and electromagnetic force.
The special materials produced in the experiment are radioactive.
From this, Wang Hao deduced that there is a certain balance point between the characteristics of the material and the strength of the annihilation force field, so that the dense materials produced are no longer radioactive.
This is a recommendation based on analysis and is also related to the correct idea of system feedback.
So Wang Hao immediately explained the relevant experimental research, and even applied for a separate project called "Research on Manufacturing Technology of Radiation-Removing Dense Materials."
The technology for manufacturing dense materials is now available.
To put it simply, the metal is melted and placed in a strong annihilation force field. At the same time, a certain external force is applied to compress the metal, and then the metal is allowed to cool and solidify naturally.
The next step to study is 'de-radiation'.
'De-radiation' is to find the balance point between material properties and the strength of the annihilation force field. There are two methods that can help with research. One is to continuously reduce the strength of the annihilation force field.
The second is to replace materials for research.
The former method is very difficult. Fortunately, the annihilation force field experimental team has several generating devices, with strengths ranging from 6.0 times to 8.3 times.
"If the intensity magnification is close to the equilibrium point, the radiation intensity will theoretically decrease."
"At the same time, we need to conduct research on other metal materials and compare the data."
"In this way, we can quickly prove whether the theory is correct, and we can think in terms of application and develop some practical dense materials."
Wang Hao said to Xiang Qiansheng, "But our experimental team can just do a study. We mainly focus on theory and science. The technical aspects will be left to the technical department of Annihilation Technology Company or other institutions for research. .”
Xiang Qiansheng took over the research.
The research is not solely responsible to Qian Sheng, but also requires the cooperation of the technical department of Annihilation Technology Company. Part of the research will also be conducted at the Aviation Research Institute.
This is because it involves material research.
The annihilation force field experimental team is not suitable for conducting research in the direction of materials alone. The equipment and personnel are somewhat insufficient. They can only provide the annihilation force field device, be responsible for the main experimental part, and control the progress of the research. Other departments are responsible for other aspects.
When conducting research on dense material technology, the annihilation force field experimental team also regularly releases new experimental results under the name of the Antigravity Behavior Research Center.
What they disclosed this time was a new discovery, which was the creation of radioactive first-order iron elements.
"We created a new type of first-order iron."
"This first-order iron, which we call 'dense first-order iron,' is made of pure iron with a content of more than 99.99%. Its density, toughness, and strength are improved compared to conventional first-order iron."
"At the same time, dense first-order iron has radioactive characteristics..."
"Our research believes that dense first-order iron is likely to be the manifestation of conventional iron elements when the conventional annihilation force field increases to eight times after evolution for tens of billions of years..."
"This research discovery, to a certain extent, confirms the theory that the properties of elements change with the rise of the conventional annihilation force field in the universe."
"..."
"Annihilation Physics and Theory" published the latest experimental findings, which also attracted great attention from the international academic community.
When the research was officially published, the famous physicist Hodge-Enske immediately said, "If it is true, it would be really amazing."
""The Development of the Universe and the Properties of Elements" is the theory of evolution in the physical world. This theory believes that the properties of elements are constantly changing with the development of the universe."
"The discovery of radioactive first-order iron is equivalent to verifying the theory of evolution in physics..."
Many scholars also thought of another issue.
Among the research results completed by Wang Hao, regarding the theory of annihilation and the development of the universe, the most eye-catching and influential one is the "Cosmic Expansion Theory".
The "Cosmic Expansion Theory" believes that super large black holes may have existed for countless times.
The development of the universe is accompanied by expansion and contraction. During the alternating process of expansion and contraction, black holes may not be destroyed. Some black holes may exist for several reincarnations, or even "countless reincarnations."
A black hole is an aggregation of a strong annihilation field and upgraded particles.
So is there a possibility that there are countless unimaginable higher-order elemental substances inside the black hole? Dense first-order iron may also be present.
In other words, dense first-order iron may exist in the universe.
Scholars are also talking about another point, which is the significance of the discovery of dense first-order iron. "From stable elements to radioactive elements, mankind has achieved a breakthrough in changing the properties of elements for the first time."
"Then in turn, stable elements can also be produced from radioactive elements."
Many scholars are interested in this.
It's a pity that they can only conduct a brief analysis and cannot participate in experimental research at all, because only the Antigravity Behavior Research Center has high-magnification strong annihilation force field technology.
Whenever the Antigravity Behavior Research Center discloses the research results of some kind of annihilation force field, many people will think of two other institutions at the same time--
International Annihilation Theory Organization and the Groom Lake Project Project Team.
The International Annihilation Theory Organization is relatively better, because their technical research is advancing steadily and they study step by step, letting people know that they will master high-end technology sooner or later.
The future seems far away, but at least it can be seen.
The Groom Lake Project is different.
They have not published any impressive results until now. They have spent tens of billions of dollars and nothing seems to have happened, which makes people feel very dissatisfied.
In fact, research related to the Groom Lake project is very busy.
Led by Gamow-Shapley, a large group of scholars involved in the project spent most of their time studying the antigravity properties of materials.
In recent times, their research has been progressing smoothly and has achieved remarkable results.
This is also related to the large-scale sales of first-order iron, and enough first-order iron has been obtained. Many superconducting-related companies have begun to study first-order iron-based superconducting materials.
The first-order iron element is very active, and coupled with the technological accumulation in the past few years, it is easy to develop various first-order iron-based superconducting materials.
As a result, Gamow-Shapley's experimental team devoted all their energy to experiments on anti-gravity properties.
Massive funds, massive experiments...
The results are inevitable.
Their latest achievement is the discovery of a new first-order iron-based superconducting material that can achieve an anti-gravity field strength of 6.79% above the transition temperature of 48K.
This is the highest number obtained since the beginning of the research project.
Gamov-Shapley is still dissatisfied with this data. He hopes to directly create first-order iron-based superconducting materials with an antigravity field strength higher than 30%.
Now it is only 6.79%, which is still relatively low.
After feeling the huge pressure from outside public opinion, Gamov-Shapley decided to make the research results public as soon as possible and published them in a news report in Science magazine.
…
"The new achievement of the Groom Lake Project, a super material higher than 48K that achieves anti-gravity!"
"The transition temperature is 139K, and the anti-gravity field strength is 6.79%. The new material has reached the highest level of first-order iron-based superconducting materials!"
"Shapley: Our goal is to develop materials with a strength exceeding 30 points to replace high-pressure mixed materials to create strong annihilation force fields!"
"Shapley: This is just the beginning!"
After the Groom Lake Project team released new results, a large number of media reported on it, and Gamov-Shapley also publicly accepted an interview, saying that their research is progressing steadily.
After talking about a series of research, he said with certainty, "Now we are very close to creating a high-strength annihilation force field."
A series of reports had a huge impact.
Many people are paying attention to the Groom Lake Project again, but most scholars have reservations. Gamov-Shapley made a lot of big claims before, and so far, they have only discovered a method that can operate at 187K. , it’s just a material that creates an anti-gravity field.
This is still far from creating a strong annihilation force field.
The disclosed results of the Groom Lake Project have not received much attention at all, and most scholars consider them to be only 'transitional materials'.
"If you want to replace high-pressure hybrid materials, the anti-gravity field strength created cannot be less than 25%."
"The gap between 6.79% and 25% is still huge."
"This numerical gap is still far from reaching the goal. Maybe they should change their thinking and study technology instead of just materials?"
The F-ray experimental team doesn't see it that way.
The F-ray experimental team has been very busy recently. The nuclear reactor built into their new equipment has been operating normally for more than a month.
At this time, you can start the f-ray excitation experiment.
Wang Hao also came to the experimental group. After he arrived in the experimental group, he learned about the news released by the magazine "Science" and was immediately surprised. "Shapley, you are really good at it."
"Maybe it's luck."
Liu Yunli holds a different view, "And they have invested tens of billions of dollars, such a huge investment, and so many cooperating institutions."
He shook his head as he spoke, "The most important thing is that they don't seem to pay attention to this result and published it directly. They think it is just a transition..."
Liu Yunli laughed out loud at what he said.
The first-order iron-based superconducting material currently used in the new equipment initially stimulates only about 6.5% of the antigravity field strength.
They used micron-level granular material manufacturing technology, coupled with the compression of the spiral magnetic field and the energy support of the built-in nuclear reactor, to create a high-intensity annihilation force field thin layer and prepare to excite high-intensity F-rays.
To put it simply, the materials developed by Shapley have exceeded the performance of the materials used in the new equipment of the F-ray experimental group.
"Indeed it is."
Wang Hao smiled and said, "I read reports that Shapley has developed a material with an anti-gravity strength exceeding 30 points..."
He kept shaking his head as he spoke.
That is simply impossible.
First-order iron is used to create annihilation force fields, and the intensity of the stimulation is naturally limited, mainly due to the influence of special phenomena.
If you want to use first-order iron to stimulate an antigravity field with a strength exceeding 30%, it is only possible to use 'dense first-order iron'.
'Dense first-order iron' is no longer limited by special phenomena.
They have just started researching this aspect.
In addition, they cannot sell the 'Dense First-Order Iron' abroad and can only use it for internal research and development of the annihilation force field experimental group.
Shapley had no basic materials in hand, and his research was completely rootless. It would be very difficult for him to make any progress.
The problem is that they don't know the right direction.
They clearly developed a very remarkable material, but they had no idea what was so remarkable about it. They didn't even pay attention to it, and just released the results directly.
“There is a treasure mountain in vain but you don’t know it!”
Wang Hao sighed, "They don't know about granular material technology, let alone DC anti-gravity, so they don't pay attention to the materials they have developed."
Liu Yunli's eyes suddenly lit up and he asked, "If they develop better materials, maybe we can have some kind of cooperation with them in material technology?"
"That's not our concern."
Wang Hao smiled and shook his head.
Liu Yunli's approach sounds like he is deceiving a child. Children don't know the value of the things in their hands, and they may be able to 'cheat' them away with a piece of candy.
Of course, he has no objection to this approach.
This is the advantage brought by mastering high-end theoretical technology.
Over the past many years, the precious resources held by the country have also been 'cheated' away by foreign countries.
For example, rare earths.
Initially, the sales of rare earths could be described as "half buy, half free" because the country did not have the technology to use rare earths and did not understand the high value contained in rare earths.
When a foreign company offers a price, it is sold directly in large quantities.
The two talked about the reports on the Groom Lake Project and talked about recent research issues. Liu Yunli was responsible for many research directions, including 'fan-shaped F-ray excitation technology'.
"Three times, all failed."
Liu Yunli shook his head depressedly, "We opened two adjacent ports, but the result was that the force field was squeezed out."
"It's still a matter of magnetic field and energy."
Wang Hao thought for a moment and said, "Not only is the built-in energy intensity insufficient, the internal spiral magnetic field also needs to be re-examined and designed."
"Two ports are not the same as one port."
"With two ports opened, the fringe magnetic field is no longer circularly distributed, and may cause inversion and duplication problems, wasting most of the field force..."
He analyzed it carefully, then shook his head and said, "It's better to conduct this experiment first. Only with built-in nuclear fusion support will the energy be sufficient."
"When the time comes, we can slowly demonstrate it."
The current f-ray excitation experiment is the most important.
The experiment has been prepared for a long time, mainly for the testing of the device. It is necessary to ensure that all parts are running stably before the experiment starts.
This is mainly because it has a built-in nuclear reactor.
As long as there is a slight error in the device, it may lead to a huge experimental accident. Stability must be ensured before f-rays are excited.
When the last test is completed and the relevant personnel report the data, the stimulation experiment officially begins.
Many people who participated in the experiment were very excited because they knew that high-intensity f-rays would be excited soon.
There will definitely be a lot to gain from that.
Wang Hao did not directly participate in the experiment. He just stayed in the main experimental base and waited for relevant personnel to report the results.
He was sitting in front of a computer, looking at the monitoring screen of the experimental device.
Everything is going smooth.
When Liao Jianguo shouted, "Open the launch port," he waited for about three seconds, and then he clearly saw a black light appear on the surveillance screen.
"Successful."
Wang Hao muttered to himself calmly.
Soon someone reported excitedly, "Academician Wang, it was successful. We released F-rays, and the duration was measured instantly at 0.913 seconds!"
"1.17 centimeters in diameter."
"The radiation intensity of the release port exceeds the measurement range..."
"..."
