Wang Hao returned to the office after talking to Liao Jianguo. He was indeed not interested in the follow-up research on sustained f-rays.
There are two main reasons.
One is that it is time-consuming and labor-intensive. The study of persistent f-rays requires placing a high-energy heat dissipation source in an antigravity field.
The best choice for a heat dissipation source is a nuclear reactor.
Nuclear reactors have many advantages. For example, they can continuously dissipate a large amount of high-intensity heat for more than ten years or decades.
For example, the reaction intensity is stable, existing technology can effectively control it, and heat dissipation can always supply experimental needs.
etc.
But nuclear reactors also have great shortcomings, the most important of which are two. One is the radioactivity problem that can directly harm the human body.
If research is conducted at an annihilation force field experimental base, all participants in the research must wear radiation protection equipment, and safety may not be guaranteed, so the experiment will become very complicated.
In addition, adding internal heat sources to the nuclear reactor cannot be carried out by the annihilation force field experimental team alone. It requires the cooperation of a nuclear research team.
In order to ensure the effective control of nuclear reactors, solve radioactive hazards, reactor cooling and other problems, the entire equipment will become extremely complex. The design alone will become a time-consuming and labor-intensive task, and the process from design to manufacturing requires even more a long time.
Another reason is that the follow-up research belongs to the field of purely technical design and has no scientific exploratory nature at all.
It's like designing and building an airplane.
The theory of aircraft flight has been very complete. Design and manufacturing are the work of a lot of engineers, and there is no need for them to participate.
Wang Hao still likes to explore the unknown aspects of science.
The unknown is interesting!
On the other side, Liao Jianguo's mood was very complicated. He never expected to hear such important news when he came to the Annihilation Field Experiment Base.
Persistent F-rays?
If F-rays become sustainable, they can be called 'super weapons'.
Just hearing about the research on this kind of super weapon makes people look forward to it. Its significance is not even worse than that of nuclear bombs and aircraft carriers, which are major engineering research projects.
Nuclear bombs have a strategic deterrent effect, but are rarely used.
Aircraft carriers can improve coastal defense capabilities and also have very important ocean strike capabilities, which can greatly increase the country's military influence.
But with the development of anti-gravity technology, strategically speaking, aircraft carriers have become somewhat useless. No matter how powerful the aircraft carrier is, it will never be able to keep up with the 'space carrier' flying in the air.
Even in a short period of time, the aircraft carrier still has a strong deterrent effect, but domestic aircraft carrier power technology lags behind Amerikan by decades, and it is not easy to catch up.
And F-rays are unique in China!
After F-rays become persistent, they will have very high practical value and become a weapon against high-altitude targets and near-Earth satellites.
This research will definitely become a major project comparable to nuclear bombs and aircraft carriers.
If it can be truly researched and manufactured, the relevant scholars and project leaders may become great figures recorded in history.
Liao Jianguo's heart was filled with excitement just thinking about it.
He then shook his head with a wry smile and said, "Academician Wang is not interested in such an important research at all."
"really!"
"We are not on the same level at all, but it is right to think about it. Academician Wang has left his name throughout the ages. He must have higher pursuits, such as this kind of research..."
"People don't like it either!"
Liao Jianguo was suddenly filled with complicated feelings, but he was still looking forward to the new experiment.
The new experiment is to detect the duration of F-rays.
As long as the duration can be detected, it can be determined that the F-rays produced by the new technology are persistent, and the research will have a technical foundation.
This experiment required very high-precision measuring equipment.
After the Annihilation Force Field Experiment Team and the F-Ray Experiment Team submitted a report on experimental requirements, it immediately attracted the attention of the military and science and technology departments.
Soon the military mobilized the most sophisticated and sophisticated testing equipment from the top optical research institutions in the country and quickly transported it to the annihilation force field test base.
They also sent a professional researcher over.
It only took about half a month from calling, transporting, installing and debugging the equipment. After confirming that the equipment could cooperate with the experiment, the next experiment began.
The superior sent a female researcher about forty years old named Xu Hua.
When the experiment started, Xu Hua's eyes were full of nervousness and excitement. She was excited that she could participate in an F-ray generation experiment that she had never heard of.
F-rays are still based on creating anti-gravity fields and strong annihilation fields. They sound very high-end, but I don’t know the specifics.
In addition, participating in Wang Hao's experiment is also exciting.
Those are Wang Hao and Academician Wang!
There are countless admirers of Wang Hao in the international scientific community, and Xu Hua is one of them. She admires Wang Hao very much. The first thing she did when they met was to ask for Wang Hao's autograph.
Wang Hao was a little embarrassed at that time.
After working together for a few days, Xu Hua's emotions calmed down a lot, but she still felt very excited about the upcoming experiment.
She stood next to Wang Hao, suppressing her excitement, and talked about the testing equipment, "This equipment is the most advanced in the world, and the detection time accuracy is 0.001 seconds."
“It detects it on the fly and calculates contrasting contrast light conditions.”
"I have made settings based on the original experimental data. As long as the duration of F-rays exceeds 0.001 seconds, it can be detected..."
Xu Hua introduced it carefully.
Wang Hao already understood the new equipment. He just nodded lightly and was very satisfied with the accuracy of the equipment.
This kind of direct detection equipment has a detection accuracy of 0.01 seconds, which is very amazing.
Many expressions of time in the field of physics have very shocking numerical values. For example, the lifespan of rapidly decaying particles, some are even lower than 10 minus 20 seconds, which is simply unimaginable for humans.
But in fact, those are calculated data rather than direct 'timing' detection.
The calculation may sound very accurate, but it may deviate greatly from reality. The theoretically calculated time is different from the reality.
The theory of relativity also supports this.
Therefore, the duration of F-rays still needs to be specifically detected in order to demonstrate their persistence.
…
The experiment has entered the final preparation time.
Xu Hua went to the experimental room.
Liao Jianguo stood next to Wang Hao. He was more nervous than others, because as long as the experiment found something, they would start the project research and he would become the project leader.
So he very much hopes to be able to detect the persistence of F-rays.
At this time, Liao Jianguo asked with concern, "Academician Wang, is the duration of F-rays positively related to the intensity of the heat source?"
"This question is a bit over the top."
Wang Hao smiled and said, "We must first detect the persistence before we can study its correlation with the intensity of the heat source."
Liao Jianguo smiled sheepishly, "I know too, but I still want to know about it in advance."
"I'm not sure either."
Wang Haodao, "The law must be verified by subsequent experiments. I can only confirm that under the condition of low heat source, the duration of F-rays is positively related to the intensity of the internal heat source."
Liao Jianguo continued to ask, "So is it possible that if the intensity of the heat source reaches a certain value, F-rays can continue forever?"
"...This is also possible."
Wang Hao shook his head uncertainly, "That would be an ideal situation. To reach that level, maybe the heat source cannot just be a small nuclear reactor, but a violent nuclear fusion?"
"Fusion!"
Tang Jianjun caught the key word, his eyes lit up and he asked, "Academician Wang, is it possible to carry out nuclear fusion reaction inside?"
Wang Hao smiled bitterly and said, "You have to ask Director Liao about this."
"If persistence can be detected, Director Liao will be responsible for subsequent research. The nuclear fusion reaction is too violent and difficult to control. Adding a small nuclear reactor internally should lay the foundation for future research on controlling nuclear fusion."
Tang Jianjun looked at Liao Jianguo with some embarrassment.
After Liao Jianguo arrived at the experimental base, the two continued to talk normally, as if nothing had happened, but Tang Jianjun always felt awkward.
Liao Jianguo didn't care anymore.
In the face of such a heavyweight project, the little quarrel with Tang Jianjun was nothing. He just looked forward to taking over the research of large projects.
Liao Jianguo told Tang Jianjun, "We will apply for continued research on F-rays in the future, and adding nuclear reactors internally will definitely be a big project."
"Relevant experimental data will definitely lay the foundation for future nuclear fusion research."
Tang Jianjun also became fascinated.
Although he was only 'laying the foundation', there was at least hope. He only hoped that he could see the day when controllable nuclear fusion could be realized in his lifetime.
Amidst the chatter of several people, the experiment has begun.
The entire experimental process is basically the same as the previous experiment, except that optical detection equipment is added to the F-ray release port.
When the F-ray was ready to be released, everyone held their breath.
As the black shadow disappeared in a flash, they immediately looked at a computer screen in the corner. The computer was connected to optical detection equipment, and the data would be uploaded in time.
"We already have data!" Liao Jianguo exclaimed first, "0.078 seconds!"
"Is it this index?"
"That's right!"
"It's 0.078 seconds, longer than expected!"
"The accuracy reaches 0.001 seconds? It's amazing, the value is almost close to 0.1 seconds..."
Everyone was very excited, "The continuity of the detection shows that the F-rays released by the new technology can be maintained, which is amazing!"
"We made it!"
"Success!"
…
The experiment is over.
All researchers participating in the experiment took notes or wrote reports on the experiment, and then held an experiment summary meeting together.
After that, Wang Hao, Liu Yunli, Liao Jianguo and others wrote an application proposal for "Further Research on F-Ray Continuity".
The application proposal explains the latest experimental findings, as well as the technical theoretical derivation based on experiments, and explains the importance of continuous research on F-rays.
Liao Jianguo also standardized the word "super weapon" in the report and explained that continuous research on F-rays can create "super weapons".
Super weapons are not exaggerated.
The core of the research is new F-ray generation technology, and the way to improve the technology is to add a nuclear reactor internally. From the perspective of experimental discovery, increasing the intensity of the internal heat source can not only increase the persistence of F-rays, but also enhance the intensity and propagation distance.
Think about it…
F-rays have the characteristics of high intensity, coverage beyond distance, and sustainability. The generating equipment has also become much simpler, and the angle of the release port can even be adjusted.
That can definitely be called a 'super weapon'.
The application for "Further Research on F-Ray Sustainability" was quickly submitted to the military and science and technology departments. Both the superiors, Teacher Xu and General Zhang, saw the report.
They all reacted the same way.
"Is this true or false?"
"Super weapon? That's too exaggerated! Can the F-ray last and turn at angles?"
"Any target in the air will become a target, right?"
"too exaggerated!"
Although the content of the application is very shocking, because Wang Hao is also one of the applicants, the credibility is naturally greatly improved.
Teacher Xu and General Zhang discussed it and decided to go and have a look together.
at the same time.
Wang Hao returned to Xihai University without waiting for the reaction of the superior department. He first went to the Antigravity Behavior Research Center to see the situation of the new team.
The new team is the Annihilation Field Material Experiment Team.
The leader of the experimental group was Sheng Hailiang, and other members also came to report. There were twenty-three in total, and they were divided into three groups.
Their working location is still at the Antigravity Behavior Research Center for the time being.
He Yi has been in charge of experiments on annihilation force field materials before. He already has a lot of work experience, and now he is just handing over the work to the new experimental team.
Fortunately, with He Yi's help, Sheng Hailiang quickly adapted to work.
Wang Hao went to the research center to meet Sheng Hailiang and other newcomers. He gave a brief speech emphasizing the importance of the annihilation force field material experimental work.
He is indeed looking forward to working with the new experimental group.
Wang Hao has always hoped to create a strong annihilation force field based on metal materials. Compared with high-voltage hybrid superconducting materials, metallic superconducting materials have great advantages.
For example, the current carrying capacity is stronger.
Theoretically, a stronger current carrying capacity means that there are more semi-topological structures inside, and the intensity of the annihilation force field created is higher.
In addition, the use of metallic superconducting materials has low environmental requirements, and the cost of manufacturing equipment for generating strong annihilation force fields will also be greatly reduced.
From a theoretical research perspective, being able to use first-order iron elements to create basic materials for the generation of strong annihilation force fields will also be of great help in exploring special phenomena and deciphering the mysteries of first-order elements.
These are all advantages.
Of course.
It will take time and a lot of luck for the new experimental team to make real discoveries. Wang Hao doesn't have much expectations in the short term.
After completing the research on the new F-ray technology, he returned to the university to conduct regular research. Most of the time, he worked with Huang Zhen, Ding Zhiqiang, Helen, Paul Phil-Jones and others on annihilation theory and related experimental phenomena. theoretical discussion.
afternoon.
Wang Hao was lying on a chair, drinking coffee and watching movies leisurely.
Ding Zhiqiang walked into the office and shouted, "Teacher Wang, there is a new discovery, which may be related to special phenomena!"
Wang Hao immediately sat up and asked, "What discovery!"
"look at this!"
Ding Zhiqiang handed over the tablet computer, which displayed the new electronic journal of "Material Physics".
Among them is a research paper called "Study on Electronic Anomalies in the Outer Layer of First-Order Iron Elements", which was completed by Yoshio Kurimura of the National Institute of Materials Science and Technology of Japan.
During the study of first-order iron elements, Yoshio Kurimura discovered that the outer electron activity of first-order iron elements was 'unreasonable'.
This unconventionality is manifested in many aspects. For example, the chemical properties of first-order iron elements are more stable. For example, its metal compounds have lower resistance values than conventional iron.
Many physical properties were cited in the study.
When comparing these physical properties, it is found that some physical properties are opposite.
For example, a more stable chemical form may mean a higher resistance value.
This conclusion is not certain, but several of them put together give people a very unusual feeling. Compared with the characteristics of other conventional elements, "the resistance value of first-order iron elements and their metal compounds should be higher and Not lower.”
This is where the problem lies.
After many aspects of demonstration, Yoshio Kurimura's research came to the conclusion that "the outer electron activity of the first-order iron element is abnormal."
"I think this may be related to a special phenomenon!"
Ding Zhiqiang said, "This research has found something unusual. If it were a conventional element, the outer electrons would not be so active."
Wang Hao thought about it and asked, "If the outer electrons are active, to a certain extent, it may mean that the properties of the compound are unstable, right?"
"right."
Ding Zhiqiang nodded vigorously, "However, first-order iron compounds are even more stable than conventional iron compounds."
He's talking about the stability of chemical bonds.
The stability of chemical bonds is that greater energy is required to separate chemical bonds, and greater heat is released through chemical reaction separation.
Wang Hao thought carefully and suddenly thought of another experiment.
When He Yi was doing experiments on annihilation force field materials, he discovered that some first-order iron materials exhibit unusual anti-gravity properties.
When the critical temperature exceeds tens of K, the material can create a weak anti-gravity field.
Are the two related?
