Wang Hao felt confused for the first time.
In previous experiments, the results were often expected. Even if the values ​​were on the high side, he would know what they represented.
It's different now.
The intensity of the anti-gravity field created by the DC anti-gravity experiment supported by micron-scale granular materials is greatly unexpected.
He originally expected it to be only between 23% and 28%.
This data is already high, enough to produce f-rays with intensity exceeding ten times, but the final data reached 33.433%.
When the anti-gravity field strength is 18%, through strong compression and internal nuclear reactions, f-rays with a magnification of more than 7.5 times can be produced.
33.433%, what is the concept?
So what is the relationship between the intensity of the f-rays finally produced and the intensity of the anti-gravity field?
Exponential?
Restricted power level contrast relation?
Or is it a direct proportional relationship?
Wang Hao is temporarily unable to make a determination, mainly because there is not enough experimental data to support it. DC anti-gravity is a new technology.
DC antigravity was first realized by relying on high-pressure mixed materials, and later it was realized by relying on first-order iron superconducting materials. However, there were only two materials used in the experiment, and the energy support for the internal micro-nuclear reaction was only used in one experiment.
With such a small number of experiments, the data naturally has no reference significance.
Wang Hao shook his head slightly, "The intensity of the f-rays produced with this support is difficult to say. It still depends on the experiment."
Liao Jianguo was a little surprised when he heard this.
In previous experiments and research, Wang Hao was very confident about the results, and there would not be much deviation between his predictions and the experimental results.
Now you have no idea?
Liao Jianguo found it very interesting. He immediately said, "It seems that we can only do experiments. Then we can stimulate the f-rays and then measure them."
"Measurement is also difficult."
Wang Hao shook his head and said, "We cannot measure the intensity of f-rays above ten times."
Liao Jianguo thought about it and nodded, "That's right. We all measure the strength with reference to the strong annihilation force field. Now the upper limit of the strong annihilation force field is only more than 8 points. Let alone 10 times. Even if it is 9 times, it can only
Use material magnetization reaction data to make a rough estimate."
"If the magnification exceeds 10 times, the magnetization reaction data will not be accurate."
Wang Haodao, "Because of specific reactions, the specific reactions of upgraded elements will greatly affect the intensity of the magnetization reaction, and when the magnetic field intensity reaches more than 10t... there is no way."
He said and shook his head.
Then I thought about it carefully and asked Liao Jianguo, "What do you think? What is the specific relationship between DC field force intensity and f-ray intensity? Exponent, power, or proportional relationship?"
"this……"
Of course Liao Jianguo didn't know, "Academician Wang, you don't even know, and I don't dare to talk nonsense."
"Guess."
"Guess?"
"right."
"Okay." Liao Jianguo thought about it, "I think it should be a direct relationship, right? The higher the intensity of the field force, the higher the intensity of the f-rays excited. Of course, the premise is that other conditions are consistent, including the interference magnetic field and the energy of the internal heat source.
It’s all consistent.”
"At a field strength of 18%, it can stimulate an annihilation force field of 7.5 times. At a strength of 34%, it is probably...less than 14 times?"
He analyzed it carefully and the more he talked, the more it made sense.
Wang Hao nodded gently and found that no correct results were fed back. He immediately sighed and said, "What you said is also very useful. At least one wrong answer has been eliminated."
"What?"
"nothing."
Wang Hao patted Liao Jianguo on the shoulder and said seriously, "Come on, Professor Liao, you will be very busy in the next period of time."
After he finished speaking, he added, "The nuclear fusion research side will also look for you."
"I know this."
Liao Jianguo replied, still thinking about Wang Hao's words just now.
Eliminate an error answer?
Does Academician Wang think my analysis is wrong?
How can it be!
Academician Wang doesn’t know the specific situation. Once the equipment is perfected and f-rays are excited, we will see who is right!
…
The current experimental results represent that f-rays and related strong annihilation field technology will usher in major breakthroughs.
33.433%, it’s just the beginning.
There is still a lot of room for improvement in the manufacturing technology of micron-level granular materials. The average size of the granular materials they manufacture is only about 100 microns.
With the improvement of related manufacturing technologies, granular materials with higher precision will definitely be produced in the future, which means that stronger DC anti-gravity fields can be stimulated.
"Not only the f-rays are excited, but when the time comes, the intensity of the thin layer of annihilation force field formed inside may exceed 10 times."
"By then, there will definitely be a lot of results."
"Maybe more upgrade elements can be discovered? Or other discoveries..."
"..."
Wang Hao is looking forward to this very much.
Unfortunately, we still have to wait before we can actually enter the experiment, because it takes time to perfect the equipment.
What they conducted was only a DC anti-gravity experiment, and the basic materials were just placed in place. If they want to conduct the next experiment, they must create stable equipment.
Only stable equipment can activate a micro nuclear reactor internally.
After improving the equipment, they also need to install a spiral magnetic field on the outer layer. The entire experimental device is a big project.
Fortunately, the research on f-rays has gained a focus on resources.
Regardless of whether it is personnel, equipment, or materials, priority is given to supply, but it will take more than two months to complete the equipment.
Next is the work of the f-ray experimental team.
Wang Hao does not need to stay at the experimental base. He only needs to wait for the equipment to be perfected before coming to participate in the f-ray excitation experiment.
He returned to Xihai University.
Originally, I wanted to take a break and live a relaxed and leisurely life, but within two days, a team from the Nuclear Engineering Research Institute came over.
This chapter is not over yet, please click on the next page to continue reading! The group leader is Wang Ye.
Wang Ye is responsible for nuclear fusion demonstration research, and he led the team to talk to Wang Hao about the 'ignition test of deuterium-deuterium reaction'.
The demonstration of nuclear fusion projects is not just a matter of paper.
The science and technology department has approved a billion dollars in funding, most of which is used for experiments. They need to strengthen the theoretical foundation through real experiments.
The ignition test of the deuterium-deuterium reaction is a very important experiment.
This experiment is to determine how high the reaction intensity is so that the deuterium-deuterium reaction can continue spontaneously without stopping midway.
A team from the Institute of Nuclear Engineering took over the project.
Wang Baichuan is the person in charge of the project. He did not apply for it himself, but was directly assigned by Wang Ye and Tang Jianjun after discussion.
The reason is simple: there are very few scholars qualified to study 'nuclear fusion explosion'.
Wang Baichuan is outstanding among them. He has actually participated in the experiment of hydrogen bomb explosion. Most scholars in the same field can be classified as the "theoretical school" and have no similar experience at all.
After a group of people found Wang Hao, Wang Ye explained the experiment.
Wang Baichuan was a little impatient and asked directly, "Academician Wang, can we really achieve the ignition of the deuterium-deuterium reaction?"
To be continued...