Yang Jie is also very interested in this kind of energy holy grail device, and also takes the initiative to provide help to the Chinese Academy of Sciences, mainly to build large-scale scientific experiment instruments and provide various special equipment.

He hopes to make Huaxing Group have a greater improvement in manufacturing capacity by participating in these projects, whether to make money or not is one thing, through these projects to exercise the company's internal technical team is Yang Jie's real purpose, after all, Huaxing Group has made a lot of money in the field of equipment and instrument manufacturing in the civilian market, and the R&D team must be at the forefront.

Therefore, the machine tool research institute and instrument equipment company of Huaxing Group Company are now turning to the research and development and manufacturing of large-scale equipment such as large scientific experimental equipment.

In view of the current situation that there are no scientific instruments and platforms for mechanical testing of superconducting electromagnetic materials under extreme full background fields at home and abroad, Huaxing Group Co., Ltd., together with the Chinese Academy of Sciences, Meixihu University and South China University, began to develop the first "extremely low temperature-electrical-magnetic multi-environment field superconducting material mechanical properties testing equipment".

The research and development equipment mainly includes 6 subsystems, including extremely low temperature, background magnetic field, strong current loading and control, and mechanical loading and control, which can be directly applied to more and more multi-field performance testing and basic experimental research of electromagnetic functional materials and structures serving in complex and extreme environmental fields.

The design of this set of equipment has almost been completed, and it is expected to take more than a year to complete, and the equipment will be settled in a large laboratory in Tanzhou City after completion.

This set of equipment is also specially prepared for the research and development of the key science and technology of the next generation of high-field superconducting magnets of the Chinese Academy of Sciences, especially for the development of a new type of strong magnetic superconducting coil for thermonuclear fusion, which can create a very good experimental environment.

Large-scale scientific research facilities play a huge role in attracting high-end talents, and Yang Jie is very aware of this, so the construction of these large scientific facilities is in line with the industry of Central Plains Province.

The University of South China in the Central Plains Province has a very deep accumulation in nuclear engineering, and has a very deep foundation in the exploration and mining of uranium ore and nuclear radiation monitoring and protection, and the Institute of Nuclear Industry Physics was merged into the University of South China six years ago, and officially launched scientific research projects such as nuclear fusion and plasma physics, particle physics and nuclear physics.

However, the technical strength of this university and research institute in this regard is much weaker than that of the Institute of High Energy Physics of the Chinese Academy of Sciences and the Southwest Institute of Nuclear Industrial Physics.

In 05, Meixihu University began to build the Institute of High Energy Physics, and at the same time, more than a dozen talents engaged in research in the field of fusion plasma were recruited from the University of California and Princeton University to conduct research and development and teaching in the Institute of High Energy Physics.

The high-end talents recruited by the Institute of High Energy Physics of Meixihu University are all personnel who have directly participated in the research and development of domestic stellaroid fusion reactors in Eagle Sauce, and have published high-level papers in their respective fields, especially Professor Xiao Yong, who has made outstanding achievements in the field of plasma turbulence and transport, and established a mathematical model for controlling turbulence.

Until now, the scientists of Neon Nation and Eagle Sauce are still developing detection equipment for these plasmas, and there are no instruments and equipment that can directly detect the turbulent propagation of this plasma.

Professor Xiao Yong's paper has also been recognized by scientists in the industry, such as Neon Country and Yingjiang in order to verify the phenomenon of "turbulent propagation", and also try to challenge the turbulence observation of the "magnetic island" in a special region on the plasma.

After establishing the Institute of High Energy Physics, Meixihu University will not just let these experts and professors just conduct simulations on a supercomputer, but will naturally build an experimental reactor for theoretical verification.

Hearing that Huaxing Group Company was going to build an extremely difficult stellar experimental reactor by itself, Nanhua University also took the initiative to find Chen Zhizhong, president of Meixihu University, to talk about cooperation.

Chen Zhizhong also reported this matter to Yang Jie.

Meixihu University has brought over a technical team with experience in stellar fusion reactors from Yingjiang through the relationship of Huaxing Group Company, but there are different opinions on whether to build a stellar completely by itself or come back from buying a ready-made one for research and development.

Strictly speaking, there is no controlled nuclear fusion major in domestic universities, and most of the experts engaged in research in this field are professors in the direction of plasma physics, or engineers in nuclear engineering.

The situation in China is different from that of Princeton, and the research on stellarators can basically be said to be blank, and a stellarator obtained by the Southwest Institute of Nuclear Industrial Physics is a stellar simulator that has been shut down in Germany, and the technology stays at the level of the eighties of the last century.

Moreover, the spiral winding of this stellar simulator is completely fixed, and the spiral magnetic field generated is also completely fixed, so it has no ability to adjust itself at all, so due to any point of design and installation error, the magnetic field lines can not return to a fixed magnetic surface after one rotation around the large ring.

When the error exceeds a certain value, the magnetic field lines may also run to the vacuum wall, causing the magnetic surface to rupture, so that the charged particles are lost along the magnetic field lines touching the vacuum wall. In order to avoid this loss, the design, processing and installation of the magnetic field of the stellar simulator require a high precision, much higher than that of the tokamak, in which the total error of the magnetic field is required to be no more than 1/10,000, so it is very difficult to manufacture, and it is also destined to be very expensive to build this type of fusion reactor, which is also an important reason hindering the development of the stellarator.

Now the best players in terms of stellarizers are Eagle Sauce, Neon Nation and Germany, Neon Nation has been in service since 98 years ago, and the stellarumer holder holds almost all the major records of the current in-service stellarator, showing a good and stable state of operation, it is close to the operating state of a tokamak device of the same size.

After Germany sent the remaining device to the Southwest Institute of Nuclear Industrial Physics, it built an optimized stellarite, and six years ago it stopped experimenting and instead built a bigger and better stellarator, which is still under construction with a budget of more than one billion euros.

In 1993, the first fully optimized stellar simulator was built, and the device developed by it was the spiral symmetry experimental device, which began to operate in 1999, and then four years ago, PPPL began to use different optimization strategies from Germany to build a national compact stellar experimental device.

However, the project required millimeter accuracy in terms of assembly, which led to rising project costs and delays.

As recently as April of this year, even though 80 percent of the project's main components had been purchased, the Eagle Sauce Ministry of Energy terminated the project to make way for the near-completion of the national ignition.

The initial purpose of the National Ignition Facility was to simulate a nuclear explosion and study the performance of nuclear weapons, which was the original intention of the National Ignition Facility, which was to ensure that nuclear deterrence would be maintained without the need for a nuclear test as part of the Nuclear Weapons Stockpile Management Program.

In another way to further understand the secrets of the universe, scientists can use the National Ignition Facility to simulate the environment of supernovae, black hole boundaries, stars and the inner cores of giant planets for scientific experiments.

Finally, a national ignition device will be used to create a controlled hydronuclear fusion reaction similar to the inside of the sun, which will eventually be used to produce sustainable clean energy.

Huaxing Group also took the opportunity of the PPPL experimental device to dig up part of the R&D team last year, because these R&D teams already knew last year that this device could not be built anymore, so more than a dozen people involved in R&D such as Xiao Yong also agreed to return to China to continue to engage in the research and development of stellarizers.

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