Research starts with PhD students

Chapter 243 Two breaking news! In-demand talent!
The title of Zhang Shuo's research is "Synergy and Reaction Correlation between Strong Force and Electromagnetic Force in Nuclear Fusion", and the report content can be divided into three parts.

The first part is the basic content of the research. The main body is to connect the principles of nuclear fusion reactions and conduct mathematical analysis on the relationship between electromagnetic force, strong force and reaction, that is, to explain the nuclear fusion reaction from the perspective of basic force relations.

The second part is the expansion, which is directly related to the source point theory. It is based on the commonality of electromagnetic force and strong force, and explains the mathematical principles that affect the reaction rate.

The last part is a summary. Based on the conclusions of the second part, it is believed that the reaction rate of nuclear fusion can be stably controlled by adjusting the magnetic field strength.

After the report was completed, many people were very surprised.

The title of the report already explains the research content, and since it is Zhang Shuo's report, the first part is not surprising.

At the beginning of the meeting, Zhang Shuo’s speech explained the research direction of source point theory. His research is theoretical, that is, to connect other physical phenomena with the basic force correlation.

The second and third parts were totally unexpected.

In particular, the third part explains a new method to achieve controlled nuclear fusion based on theory.

Is this approach feasible?
Many scholars could not help but start the discussion. "The theoretical basis is fine. The mathematical analysis is very interesting. And it is Professor Zhang Shuo's research..."

"Professor Zhang Shuo's research is not necessarily true, right? Academics should not engage in personality cults. Nuclear fusion reactions, saying that the reaction rate can be controlled by adjusting the magnetic field... sounds a bit unreliable."

"So far, it is just a matter of whether the theory is feasible. We need to continue to conduct in-depth research. Besides, the theory is not perfect."

“Even if the theory is perfect, who would pay for it? The research investment would surely be huge.”

"A completely new method of controlling nuclear fusion requires an absolutely massive investment."

"But if it works, it could solve the problem of controlling nuclear fusion."

"Not necessarily. Even if electronic control can be achieved, there may be other technical problems, just like the tokamak device."

"At least for now, it is difficult to make a qualitative breakthrough in the technology of controlling nuclear fusion with the Tokamak device, so the new method is worth a try."

The front row of the venue.

Zhang Shuo was surrounded by several scholars and was also talking about his research. "This is an extension of my research on electromagnetic force and strong force correlation, which is related to nuclear fusion."

"Feasibility? Maybe. I think it's feasible, but it's also not feasible. Even if electromagnetic interference reaction can be realized, there may be other problems."

"It's just a theory now, and the theory needs to be further improved. In addition, to study the technology, a lot of basic experiments are needed..."

This is a fact.

What Zhang Shuo can be sure of is that there is no problem with the theory, that is, electromagnetic regulation can indeed affect the reaction rate of nuclear fusion.

If we do a lot of basic experiments, we will definitely be able to detect the impact of electromagnetic changes on the rate of nuclear fusion reactions.

However, it is difficult to say whether it is feasible to achieve controlled nuclear fusion in this way. Without the support of basic experiments, the technical parameters are uncertain.

For example, the requirements for electromagnetic control are very high and the frequency of changes is very fast.

This raises a question of technical precision.

The biggest problem with the tokamak device controlling nuclear fusion is that the material performance cannot keep up. At the same time, there are also many problems with the control accuracy.

Electromagnetic control to influence the rate of nuclear fusion reaction. The latter has a bigger problem, that is, the existing technology may not be able to achieve the required control accuracy, or it may not be able to produce the required ultra-high magnetic field.

After talking about the research problem, Qiu Chengwen asked with interest, "Zhang Shuo, are you planning to study nuclear fusion?"

Many people listened attentively.

"Maybe." Zhang Shuo gave an uncertain answer.

Qiu Chengwen smiled and said, "If we can develop a new technology to control nuclear fusion based on the theory of fundamental forces, whether it can be transformed into application or not, I believe it will be very important for both theory and technology."

“It’s even more significant!”

Many people couldn't help but nod their heads.

What Qiu Chengwen said does make sense. Even if the new technology still cannot make nuclear fusion a reality, it can illustrate that the basic force relationship can expand other physics and technology.

Some technologies that have not yet been widely used can be analyzed theoretically based on basic force relationships, and then ways to realize their applications can be found.

This is very important for both theoretical development and scientific and technological research and development.

At the same time, new control technology for nuclear fusion will also become a flagship research direction for the expansion of the source point theory.

There are many key technologies in human science and technology today that are still in the laboratory stage and have not yet achieved large-scale application coverage.

There are also some technologies that already have an application basis, but cannot be applied on a large scale due to their cost.

Superconducting technology is a typical example.

Even high-temperature superconducting materials require liquid nitrogen for environmental cooling, so large-scale applications are naturally not possible.

If we can use the basic force connection to demonstrate the theoretical mechanism of superconductivity, and then support the manufacture of superconducting materials with lower demand and higher cost performance, it will also enable superconducting technology to be applied on a wider scale and enable rapid progress in science and technology.

These are all things to look forward to.

After the morning meeting, many people were still discussing Zhang Shuo's research report.

Some well-known scholars met reporters, who were also very interested in Zhang Shuo's research and asked the scholars for their opinions.

“Professor Zhang Shuo’s report was very interesting. His research used fundamental force correlation to analyze nuclear fusion reactions.”

"It has developed a new method to control nuclear fusion, which may help humans achieve control of nuclear fusion in the future."

"Professor Zhang Shuo is a very talented person. He is currently studying nuclear fusion. Perhaps we can expect new progress in this field..."

The research published by Zhang Shuo is directly related to nuclear fusion, so many scholars naturally believe that he started studying nuclear fusion.

But some people don't see it that way.

For example, Zhou Jianming.

Zhou Jianming works in the Bureau of Science, Technology and Industry and has participated in many confidential project research projects. He knows about the research of Tong Zhiguo's team and also knows about the energy project applied for by Gao Xiao.

The stability control of nuclear fission is a technology for producing energy through electromagnetic interference. Single-element substances can be directly used as raw materials, and the energy production efficiency is very high.

Its foundation and control stability are much stronger than nuclear fusion.

"The nuclear fission technology represents the energy technology of the future."

"Nuclear fusion? The control coefficient is so high, and it is unstable. The raw material also requires radioactive tritium..."

"It's impossible for Professor Zhang Shuo to study controlled nuclear fusion!"

"This theoretical research may just be a guide in one direction..."

Zhou Jianming's guess was only half right.

Zhang Shuo really has no intention of studying controlled nuclear fusion technology. To be precise, he wants to master new energy technology through controlled nuclear fusion.

'Nuclear fission' is much more energy efficient than nuclear fusion and requires much less control.

'Nuclear fission' has enabled humans to master efficient, low-cost clean energy.

The theoretical research related to nuclear fusion was only done as a side effect of the research process, while the content of the report was specially prepared for the meeting.

Zhang Shuo is very interested in nuclear fusion, but he is not just interested in "controllability", but in achieving direct conversion of electromagnetic force under the premise of controllability.

'Controllable' is just a necessary process for technological realization.

Controlling nuclear fusion is only the first step, but electromagnetic regulation is only one way to achieve nuclear fusion control. What is more promising is "internal ion matter emitting strong interference."

The latter is the experimental direction.

After achieving control over nuclear fusion, it will be possible to directly convert electromagnetic force, that is, directly output electricity.

This is the ultimate goal.

Controlling nuclear fusion is only the first step, and the key now is to determine the numerical problem of strong force. He is still looking forward to the transformation of the tokamak device at the Institute of Nuclear Physics. After determining the numerical problem of strong force, the theory will be further improved, and based on the theory, the experiment of "internal interference of ion matter" will be carried out to achieve control of nuclear fusion.

The next step is to study the "hydrogen bomb battery" technology.

……

The meeting continues.

Zhang Shuo continued to serve as a reviewer of the reports. He also discussed theoretical research issues with others and also talked about work related to the conference.

They decided to make the International Research Conference on Source Point Theory an international academic conference that would be held intermittently.

This is the first meeting, and subsequent meetings will be held at regular intervals.

Zhang Shuo suggested that the conference be held once a year, because the source point theory is a new direction in physics research. With a new direction and a new starting point, and with the participation of many scholars, research will progress very quickly. By holding a conference once a year, a large number of excellent research papers can be received.

The second topic is the issue of conference awards. Just like other international academic conferences, the Origin Theory Research Conference will also set some awards.

Two awards have been confirmed, one is the Conference Outstanding Paper Award, and the other is the Source Point Physics Award.

The Conference Outstanding Paper Award is to select the best paper of the previous conference, and will be awarded with prize money and certificates.

The Source Point Physics Award selects the best theoretical research in the direction of source point theory in the previous year, and also awards prize money and certificates.

The third topic is the collection of conference papers and the establishment of academic journals.

The conference papers will be included in cooperation with major scientific citation retrieval databases, allowing the conference papers to directly enter the major scientific citation retrieval, such as SCI and CSIC.

An academic journal called "Source Point Physics".

After the meeting, the "Source Point Physics" committee and editorial department will be established and directly under the management of the Source Point Theory Research Center.

At the same time, well-known scholars will be hired as review editors.

and many more.

Zhang Shuo does not participate in the relevant detailed work. He is only responsible for decision-making on the general direction of development.

……

The International Research Conference on Source Point Theory was held for four days.

On the afternoon of the fourth day, the closing ceremony of the meeting was held in the main hall of the City Conference Center, which was a summary of the meeting process and announcing the decision on the next meeting.

After the meeting, Zhang Shuo also felt very tired. Four consecutive days of meetings and participation in various aspects of work really consumed a lot of his energy.

However, the gains are also great.

On the one hand, the promotion and development of the source point theory is one aspect, and on the other hand, his personal direct gain is the considerable progress in both tasks.

The progress of the theoretical connection between electromagnetic force and strong force has been improved to 51%.

The progress of 'approximate solution of the electromagnetic force and gravitational relationship model that can be transformed into applied technology' has reached '89%', and a new set of application solutions will be obtained soon.

Zhang Shuo is still very much looking forward to this.

He hopes that the application of disassembly can achieve transcendence, which will lead to a breakthrough in gravity manufacturing technology.

……

After the meeting, domestic and foreign media reported on it.

There were two major news from the meeting. The first was the determination of a new physics research direction, or in other words, the implementation method of gravitational technology, that is, solving the correlation model between electromagnetic force and gravity.

"Each disassembly may represent a new experimental basis or even a new technology..."

Zhang Shuo's speech at the conference spread throughout the world.

Many professional scholars analyzed his speech, "That is to say, each solution corresponds to a gravity manufacturing technology."

“Technology is directly related to the parameters within the solution group.”

"For example, a magnetic field strength of 1T and the associated parameters of the ionic medium can together produce a corresponding gravitational signal or even a gravitational field."

"But maybe 2T can also work, but other parameters also need to be adjusted, which is related to the solution, and the gravitational fields created by the two are also different."

"If we just do the research experimentally, it is almost impossible to achieve gravity conversion because of the many parameters involved."

"Therefore, the main research direction is to solve the correlation model between electromagnetic force and gravity."

In a series of reports, there is no doubt that the relationship model between electromagnetism and gravity has been taken seriously.

This model is directly related to gravity technology research.

Many scientific institutions have announced that they will conduct research on the "correlation model between electromagnetic force, magnetism and gravity" without investing huge amounts of money or carrying out related talent introduction work.

For a time, scholars in the field of computational mathematics, or more precisely, scholars who studied the solutions to mathematical models, became very popular.

They have become sought-after talents in major scientific institutions.

At the same time, scholars in theoretical physics are also sought after.

If we go back a few years, scholars in theoretical physics were a neglected group even internationally.

In the academic field, theoretical physics stands at the top of the pyramid, but because it has little connection with applications, theoretical physics has always been a field of "pure investment".

It is very difficult for scholars in theoretical physics to obtain a professorship in a university, unless they have a certain international reputation or have completed research with great influence.

It's different now.

Many scientific institutions have introduced talents in theoretical physics. They need relevant scholars to study the source point theory, or to study the correlation model between electromagnetic force and gravity.

Only by better understanding the correlation model can we guide the research direction of computational solutions and experiments.

The biggest beneficiary of this is Dunn-Boland.

Dunn-Bolet is completely unknown internationally. He is just an associate professor of physics at the University of Lyon.

After the conference, many media reported on Dunn-Bole because he completed several studies in the direction of source point theory.

Dunn-Boley felt like a dream.

Previously, because of his research on the origin theory, some of his research results were not accepted at all. Some of them were simply posted on the Internet at random, which attracted a lot of ridicule.

They even included some students from the University of Lyon.

Now there are many media reporting on him, and some research is constantly touted, as if it is very important.

Media reports are only one aspect. The University of Lyon has taken the initiative to sign a new contract with him, hoping to hire him as a tenured professor.

This was something I never dared to imagine before.

Dunn-Boley was a little hesitant because several more famous universities had offered him olive branches.

These even include the University of Cambridge, ETH Zurich and California Institute of Technology, each of which is more famous and influential than the University of Lyon.

This is really a difficult choice.

The second big news is that Zhang Shuo is studying nuclear fusion and has theoretically developed a new way to control nuclear fusion.

There are many related discussions internationally, some of which believe that the research is feasible, while others believe that it is impossible.

In the academic circle, half of the people are optimistic and half are pessimistic.

In public opinion, there are more positive voices because Zhang Shuo is an academic star and many people admire him very much.

If we only look at public opinion, it seems that the new technology has been determined, and it may not even take a few years for humans to master controlled nuclear fusion technology.

(End of this chapter)