No matter how high the intensity of F-rays is, because the coverage area is extremely limited, the materials produced are still too few. The current impact is mainly on radiation issues, and many experiments will have safety risks, but research must be advanced step by step.

on the other hand.

The F-ray experimental team also stabilized the new equipment. They also tried to release fan-shaped F-rays, but unfortunately the experiment still failed.

Wang Hao believes that to release sector-shaped F rays, it is necessary to re-evaluate the internal spiral magnetic field, that is, to create new equipment, and at the same time to increase the energy intensity of the built-in nuclear reactor.

The material testing was fruitful.

High-intensity F-rays have produced several upgraded elements. In addition to silicon, it has been determined that there are also mercury, tungsten, copper and hydrogen.

The discoveries of silicon and copper were both heavyweights.

The first-order silicon content in the magnetized silicon material is very high, and its direct application is to help the space agency manufacture new solar panels.

The discovery of first-order copper was also important.

First-order copper is more active and has much lower resistance than silver, almost close to "zero resistance". It is even considered to be a substitute for superconducting materials.

Unfortunately, the first-order copper content in the magnetized copper material is very low.

In addition, F-ray manufacturing of magnetized materials cannot be mass-produced at all. Every first-order copper produced must be measured in milligrams.

Therefore, if advanced materials want to be developed and applied in large quantities, they still have to rely on DC annihilation force field technology to achieve large-scale manufacturing.

In terms of manufacturing advanced materials, F-rays can only be classified as "laboratory methods" after all.

…

In the blink of an eye, three months have passed.

The science and technology department once again organized a nuclear fusion demonstration project meeting.

This project demonstration meeting is very important, and can even be said to be decisive. Many scholars who are deeply involved in the demonstration project believe that the nuclear fusion project is about to enter the next stage.

This is also the case.

The project demonstration meeting was very unusual at the beginning. Several top decision-makers came to the meeting led by the science and technology department.

The conference also closely follows the focus of domestic and foreign research, and half of the conference is a demonstration of advanced materials technology.

Wang Hao gave a speech at the meeting. He talked about breakthroughs in dense material technology and briefly introduced technologies related to nuclear fusion containers.

Although it was only a brief introduction, the inner antigravity field, outer layer of strong annihilation force field thin layer, coupled with high-end material technology and magnetic field demonstration, made all the scholars at the venue listen with interest.

They all felt that they had seen new technology and were more confident in the nuclear fusion project.

Nothing was decided at the project demonstration meeting, but after the meeting, a series of related meetings were held, including technical meetings in various directions. Most scholars had to attend at least two meetings.

This chapter is not finished yet, please click on the next page to continue reading the exciting content! Wang Hao and his colleagues Tang Jianjun, Wang Ye and others participated in multiple meetings in succession, including meetings with high-level decision-makers.

After that, the project is determined to enter the next stage - design.

A super large-scale project will be divided into three stages in total. The first stage is demonstration, and the second stage is design.

Finally, there is manufacturing.

The first two stages involve a lot of experiments, and it is uncertain how long it will take to actually enter manufacturing, which is project approval.

For example, the Manhattan Project.

It took several years from demonstration to design, and then the Manhattan Project was officially established, and it took several years to create the first atomic bomb.

After it is determined that the project has entered the design stage, it also involves experimental allocation, R&D allocation, and the formulation of a promotion plan. Of course, personnel arrangements are also indispensable.

Wang Hao was appointed as the chief designer of the nuclear fusion project.

Tang Jianjun, Wang Ye and Zhou Dongwei from the Institute of Nuclear Physics were appointed as deputy chief designers. There are also more than a dozen academicians and a large number of institutions participating in the cooperation.

Wang Hao served as the chief designer of the project, and his main job was to lead the team to complete the overall design of the nuclear fusion device.

When design involves a certain technology, other scientists and institutions are needed to assist in research.

The nuclear fusion engineering project is very large, and it has attracted much attention after it officially entered the design stage. Many scholars are discussing the time issue of device design.

This question is very straightforward.

For example, the design of high-end fighter jets often spans several years.

Nuclear fusion devices are countless times more complex than high-end fighter jets, and the number of people involved is also very large. How long does it take to design the specific device?

"Normally, this kind of research takes at least five years."

"Academician Wang Hao must be different from others. I guess three or four years will be enough? There are too many technologies involved and too many things to consider."

"Such a complex research can only be done by Academician Wang."

"Three or four years? By then, the design will be completed and the manufacturing stage will begin. It will take at least ten years to complete this project, right?"

"It took Asanguo more than 20 years to build an aircraft carrier. We are fast and efficient, but... ten years?"

"I think it would be amazing if it could be completed in twenty years."

"I hope I can see you in my lifetime..."
Chapter completed!