F-ray generation technology that uses deuteron fusion as built-in energy still has a lot of room for improvement.
One direction is the underlying superconducting material.
The underlying superconducting material supports the creation of stronger annihilation force fields, including the strength of anti-gravity fields and strong annihilation force field thin layers.
The underlying superconducting material currently used in nuclear fusion center devices is based on a-iron element, which is a conventional first-order iron-based superconducting material. A-iron element will produce special phenomena, and the intensity of the annihilation force field created will be greatly affected.
limits.
If it is replaced by a superconducting material made of beta elements, no special phenomena will occur, and the intensity of the annihilation force field created will naturally be greatly improved.
The central device is made of iron A mainly because of safety.
The initial design relied on a-iron, and beta-iron was only used for experiments later. There is not much relevant experimental data, so it naturally lacks safety.
The second direction is to upgrade raw materials and use first-order deuterium materials for fusion reactions.
The nuclear physics research team has conducted first-order deuterium-deuterium explosion experiments and collected a lot of data, which can determine that the reaction intensity of first-order deuterium-deuterium fusion is higher, which means that the energy produced per unit material is higher, and the central device obtains
The built-in energy intensity has a positive correlation with the F-ray duration.
However, higher energy intensity means it is more difficult to control.
This is also the reason why first-order deuterium was not chosen as the raw material.
After the F-ray release experiment ended, various test data came out, and one of the important data was a bit disappointing.
"The f-ray intensity we calculated is 14.9T to 15.8T, and the reference benchmark is the magnetization intensity of tin-platinum-lead alloy."
Xiang Qiansheng explained to others, "The tin-platinum-lead alloy material was discovered by the calculation team of the Materials Testing Center. There is a relationship between the magnetization data of this material and the strength of the annihilation force field that conforms to a quadratic function curve."
"We did a lot of research to determine that the relationship is accurate."
He added, "It is accurate at least below the 20x annihilation field strength."
Scholars from the Institute of Materials Science and Technology of the Academy of Sciences were suddenly disappointed.
Scholars from these materials institutes are very much looking forward to participating in the experiment, because they will be able to come into contact with magnetized materials produced by high-magnification annihilation force fields for the first time.
They all envied Wang Hui and Zhou Qing very much.
In fact, there is no scholar in the field of basic chemical material research in China who does not envy Wang Hui and Zhou Qing. They work in the annihilation force field experimental group and can obtain magnetized materials produced by high-magnification annihilation force fields at the first time, which means that
Able to discover 'new upgraded elements' or other new elements and material properties immediately.
That's almost the result that's just around the corner.
Now they finally have the opportunity to come into contact with magnetized materials produced by high-magnification annihilation force fields for the first time. As a result, the intensity of the F-rays produced is not satisfactory.
This intensity cannot keep up with the technology of the annihilation force field experimental team.
But there is still a lot to look forward to.
Even though the Annihilation Force Field Experiment Team has produced similar magnetized materials and has been carefully studied by the Materials Testing Center, they are still considered the second research team.
The first one will definitely lead to many new discoveries.
the second……
Maybe there will be new discoveries?
Wang Hao didn't care so much. Magnetized materials were just by-products of technology. What was important was that the intensity of F-rays was not satisfactory.
He originally hoped to exceed 20 times, but he can understand it if he thinks about it carefully.
The impact of the built-in energy intensity of the equipment on F-rays is mainly reflected in the duration and coverage. The improvement effect of F-ray intensity cannot even keep up with the influence of high magnetic interference.
"We still have to use beta elements!"
"Only by directly increasing the strength of the annihilation force field can the intensity of F-rays be greatly increased..."
"There is a direct relationship between the two."
"However, using beta elements means building a second nuclear fusion device. I don't know when it will take..."
Wang Hao could only shake his head helplessly.
…
When the nuclear fusion engineering team held an experiment summary meeting, the Amerikan National Satellite Center building on the other side of the earth was also discussing issues related to F-rays.
They are not discussing F-rays, but the 'black lines' captured by satellites.
An image analyst named Montero Baikal zoomed in on a photo taken by a satellite to the maximum extent and discovered that a black line appeared in the left area.
Even though the image was taken away from the sun and the surrounding area was dark, even the weak light was difficult to see, and the black lines still looked quite obvious.
It's a straight line of pure black.
Montero Baikal felt something was wrong. He pursed his lips and waved to the colleague next to him, "Lem, look what is this? The lens seems to be broken."
"Frame dropped?"
"No, there is a linear crack. It is very thin and can only be seen after magnification."
Lime came over to take a look and said nonchalantly, "Is it normal? Maybe it won't be there during the day."
"……All right."
Montero Baikal thought about it and realized that it was no big deal. It was just a black line after enlarging the photo. Similar situations would occur with many lens equipment.
He thought about it carefully, took a note, and uploaded the photo to the system.
This matter is over.
A few hours later, Adrian Davis was getting ready to get off work. When he was packing his things, he found a reminder. He clicked on it and realized that it was a message from the space monitoring team.
This message contains a photo, which was taken by the high-magnification camera of the International Space Station. The photo was taken with its back to the Earth, and the entire picture is dim.
Against a dark background, a black line appears in the edge corner of the photo.
The space monitoring team also sent an inquiry message, "The appearance of this black line is very abnormal. We have determined that there is nothing wrong with the camera that took the photo."
This chapter is not over, please click on the next page to continue reading! "Has the satellite center made similar discoveries?"
This is a routine inquiry.
In fact, a large number of similar things happen every day in satellite centers and space monitoring teams, and generally no one cares about them at all.
Adrian Davis didn't pay attention. He looked at the photo carefully and felt that it was just the light effect or the electronic equipment was interfered with. In short, there were many possibilities.
When he was about to reply, out of caution, he checked the information uploaded today and found the Montero Baikal record.
He looked through the photos uploaded by Montero and compared them with the photos sent by the space inspection team, and suddenly became serious.
"Is it a coincidence? Or what's the problem?"
"It's not just a coincidence in the photo. After calculation, the position directly opposite the black line is close to the nuclear fusion center device."
"This...can it still be a coincidence?"
Adrian Davis was a little confused, so he uploaded the two photos and the corresponding information to the intelligence center.
His work ends here.
What exactly that black line is requires other departments to make judgments.
Amrican's intelligence center works 24 hours a day, and they received the information uploaded by Adrian as soon as possible.
If the ground location directly opposite the black line was not the nuclear fusion center device, they would most likely not care at all. The current situation is different.
The person in charge of the intelligence center immediately thought of annihilation rays. He immediately found the experts in the team and also contacted scholars at the Groom Lake Project Experimental Base to help with analysis.
A large group of people analyzed and came up with a result--
"There is a 50% chance that the black line is the annihilation ray, and it is the annihilation ray released by the nuclear fusion center device."
The intelligence center immediately reported to the higher-level decision-makers, "It is normal for black lines to appear on the photos, but it is unlikely that several incidents will occur at the same time."
"First of all, the detection satellite and the space station captured the black line at almost the same time, and the duration was between 13 and 18 seconds."
"Secondly, the location directly opposite the black line is the Huazhongjia nuclear fusion project base."
"at last……"
The person in charge of the intelligence center said, "We already know about annihilation rays, and we also know that annihilation rays are related to annihilation field equipment. I have asked several top scholars, including Korot from Cooper's team, and I have confirmed one thing.
A nuclear fusion device can actually be regarded as a complex annihilation force field generating device."
To be continued...