Research starts with PhD students

Chapter 242: Small research? New direction of controlled nuclear fusion!
Sudong City, main hall of the City Conference Center.

Zhang Shuo was sitting in the center of the podium, giving a speech on the "Research Direction of Source Point Theory". The first part of the speech was about the "computational mathematics" direction of the basic force relationship model.

The whole venue was quiet.

After the research direction of the correlation model between electromagnetic force and gravity was discussed, the scholars in the audience were filled with surprise and shock, and some even felt excited.

Many scholars came to attend the conference because they were attracted by the so-called mysterious aircraft and gravitational field tests.

There are rumors in public opinion that the mysterious aircraft is a test of gravitational field technology, and gravitational field technology is based on the experimental research results of Zhang Shuo's team.

What is the basis for experimental research results?

Only top physicists can make certain speculations on this question, and the conclusions of the speculations can be 100% certain.

Now it is certain.

The experimental research of Zhang Shuo's team is based on solving the "theoretical correlation model of electromagnetic force and gravity". Whether it is to find an approximate solution group or to study the relationship between parameter solutions through experimental methods, the results are the same.

"Theoretical correlation model of electromagnetic force and gravity", each corresponding solution group represents a new experimental basis.

To put it simply, it is to use electromagnetic force to create gravity, study the transformation and common relationship between the two, and even study the technology of artificially creating gravity.

Many people were shocked. At the same time, they also understood the direction of computational mathematics of the source point theory, which is to use calculations or experimental solutions to the relationship between basic forces as theoretical support for experiments or technical research.

The experimental results of Zhang Shuo's team confirmed the theoretical correlation model of electromagnetic force and gravity. The direction of studying the theoretical correlation model is naturally very broad.

For a mathematical model, the solution set can even be said to be infinite.

As long as one of them is researched, it can be used as a basis for experiments, or even directly research the technology.

Many scholars are eager to conduct research.

Tien Fabiano can be said to be one step ahead of others, as his team has already started working on theoretical models.

Because of this, he felt mixed emotions while listening to Zhang Shuo's speech.

On the one hand, there is no problem in determining the research direction of my team.

on the other hand……

Difficult!

A mathematical model that requires a solution may not sound easy, but once you study it you will realize how difficult it is.

This model is so complex that it is very difficult to understand, and many of the parameters involved require support from basic experimental data.

Only with enough basic experimental data can we conduct mathematical analysis and further study the solution.

This process requires a lot of experiments.

The good news is that the research route is very clear. With a large amount of experimental accumulation, it does not seem difficult to measure the gravitational signal through experiments.

The bad news is, of course, that the research is extremely complex and the solution is full of uncertainty. Perhaps the solution obtained will require a magnetic field strength exceeding 10T.

With this kind of solution, only ordinary experiments can be used to measure data, and no application transformation can be performed at all.

Therefore, if you are unlucky, you don’t know how much money you will have to invest and how long it will take to develop a solution that can be transformed into applied technology.

"It's not that easy!"

"Even if we just want to measure the gravitational signal, it will take a lot of money and a long time to conduct experiments..."

"Whether it can be completed in the end also requires a bit of luck."

"As for the technology to create a gravitational field..."

Dean Fabiano thought and shook his head. He felt that even if he spent his whole life studying, he would still need the luck of winning the lottery.

Only in this way can we truly develop a solution that can transform applied technology.

……

On the podium, Zhang Shuo continued to talk about the research direction of source point theory.

He talked about the direction of computational mathematics and gradually turned to the direction of theoretical research. "The basic force relationship framework is the core of the theory."

"The framework only has basic support and needs more theoretical content to be perfected. Theoretical research is not only about basic force relationships, but can also be expanded to analyze other physical phenomena..."

He began to explain.

This part talks about improving the basic force model framework.

The core support of the basic force model framework is to study the relationship between the basic forces, and the theoretical connection between electromagnetic force and gravity is just one of them.

This is just like painting. For example, to complete a lifelike painting, the basic force relationship is the lines of the painting.

If you want to make the painting richer, you must fill in the colors and improve the details, which is to expand the theoretical research and analyze various physical phenomena based on the basic force relationship.

There are many physical phenomena associated with it, including nuclear fusion, decay, as well as the most common electron forces, quantum oscillations, etc.

In addition to microscopic and macroscopic phenomena, it also includes some observable astronomical phenomena.

Theoretical expansion can be said to be all-encompassing.

From what Zhang Shuo said, we can see how wide the scope of the source point theory is, which shocked some scholars who do not have a deep understanding of the theory.

"It's a huge body of theory, for sure."

"Source point theory, can we say source point physics? I believe this will be the most important research topic in physics in the next hundred years."

“This is the true grand unified theory!”

"If we can find the commonalities of the four fundamental forces, we can also find the 'source point', which will directly solve the problem of unifying the four forces. At that time, all phenomena can be explained by a unified theory."

"It's amazing."

Many people feel excited. They believe that the origin point theory will become a feast for physics, and physics will take this as a starting point to usher in explosive development again.

That not only concerns physical theory, but also the technological development of mankind.

……

After Zhang Shuo finished his speech, the opening ceremony of the meeting ended.

Then we move on to the main topic.

For an academic conference, the theme is naturally academic reports.

Scholars in the same field can rely on the conference platform to get together and communicate with each other, and they can discuss theoretical research cooperation, experimental cooperation, etc.

Of course, the conference organizers are responsible for organizing academic reports, including experimental reports from some large institutional teams.

Some large-scale experimental reports were conducted at the City Conference Center, while some professional theoretical reports were arranged at the Source Point Theory Research Center.

The first day of the meeting was mostly filled with lab reports.

The Chaos Force Field Research Group of the Institute of High Energy Physics (formerly the CP Group), Fermilab, etc., will all make experimental reports in the direction of chaos force fields. They are targeting electromagnetic interference hyperon decay experiments.

This experiment can be used to study the chaotic force field, which is a common complex field force. Its study is of great significance for understanding new physical discoveries and expanding theoretical research.

Zhang Shuo's project team will also make public some experimental data information.

The experimental data information they made public has attracted a lot of attention because it is related to experiments on gravitational signals.

Worldwide, only Zhang Shuo's team has detected gravitational signals. They are truly unique and their published experimental data can also guide the experimental direction of other teams and research institutions. Others who received reports include the Academy of Sciences' Superconducting Laboratory and the Institute of Quantum Physics, whose research is related to experimental support equipment technology.

For example, the Academy of Sciences' Superconducting Laboratory provides ultra-high electromagnetic field generating devices for the control of chaotic force fields and ionic matter.

The Institute of Quantum Physics, in collaboration with the Chaos Field Research Group of the Institute of High Energy Physics, has made certain experimental measurements on quantum phenomena in the process of hyperon decay.

These data can also provide support for the study of chaotic force fields.

and many more.

Except for Fermilab, other experimental reports are from domestic institutions and teams.

This is because many well-known international organizations have denied the origin theory, so naturally they will not be invited to the conference.

Zhang Shuo listened to several reports in succession and then returned to the Source Point Theory Research Center.

The Origin Point Theory Research Center has set up several halls specifically for theoretical reports, and the review team has also invited some top scholars.

There are also some young people in the review team, such as Guo Hua and Liu Mingkun from the Theoretical Office.

Guo Hua and Liu Mingkun are both in their 30s, relatively young, but they are qualified enough to be reviewers of the research direction of source point theory.

This is mainly because there are very few people researching new physics directions.

They are all top scholars, engaged in research on the standard model of particles, string theory or quantum physics.

According to the source point theory, it is impossible to find anyone.

Any academic field can be described as "crossing fields is like crossing a mountain". Scholars who are not from the direction of source point theory are not suitable to review theories in the direction of source point theory.

The reviewers of the research must be very proficient in the theoretical basis and have certain extensive research results.

There was also a white figure among the young judges. His name was Dunn-Bolet, a theoretical physicist from Lyon, France.

When the fundamental force relationship framework was finally released, Dunn-Bole began to engage in theoretical research on fundamental force relationships and published several good research results.

He explained quantum edge phenomena using fundamental force relations.

Zhang Shuo also read Dunn-Boley's paper and was very impressed by the mathematical analysis and relational explanations contained therein.

After returning to the Theoretical Center, Zhang Shuo immediately started working on the review process.

There were also many top scholars who gave reports at this conference, including Yan Ming from the Theoretical Physics Research Office of the Institute of High Energy Physics.

In the field of theoretical physics in China, Yan Ming is still very famous, but he studies string theory, which makes him a newcomer in the field of source point theory.

However, Yan Ming's level is very high, and the research he prepared contains a lot of mathematical and logical analysis content, which is very exciting.

As a judge, Zhang Shuo also listened very carefully. He was also impressed by Yan Ming's research and gave a high evaluation after the report.

This is because rigorous mathematical logic research has greatly improved the progress of system tasks.

This is also the reason why Zhang Shuo listened to the report carefully. He hopes that some new research can bring inspiration so that he can continue to improve the progress of the task.

The improvement in the 'theoretical connection between electromagnetic force and strong force' is still not significant, with the progress being only 47%, mainly because the research is too difficult.

'Approximate solution of the electromagnetic force and gravitational relationship model that can be transformed into applied technology' is relatively easy to study and is a recurring task. The progress has reached '67%'.

“After the conference, we can find a new ‘application solution’.”

"By then, it will be the corresponding gravity technology. Perhaps the demand will be lower and the gravity intensity produced will be higher?"

"The gravity aircraft developed in this way may become very flexible..."

Zhang Shuo is still looking forward to this.

……

On the morning of the third day of the meeting, it was time for Zhang Shuo to give his report.

Many scholars are already looking forward to it.

Zhang Shuo's report was arranged in the largest lecture hall in the Theoretical Center, which has more than 300 seats.

The lecture hall is open to the public.

Many people were worried about not being able to find a seat, so they simply arrived early to reserve one and began discussing Zhang Shuo's research report.

"Strong force, electromagnetic force synergy and reaction correlation in nuclear fusion".

This is the public report title.

"This should be an analysis of nuclear fusion reactions based on basic force relationships?"

"It looks like that. Didn't Professor Zhang Shuo say that the analysis of other phenomena based on fundamental force relations is the main theoretical direction of the source point theory research?"

"He is also doing research in this area..."

“I’m really looking forward to it!”

"If we can analyze the nuclear fusion phenomenon from a completely new perspective, will it support completely new experimental methods?"

"This is of great significance for promoting the research of controlled nuclear fusion!"

Many people discussed the theory and technical issues of controlled nuclear fusion, and some people even thought that Zhang Shuo was preparing to research controlled nuclear fusion technology.

Amidst the numerous discussions, Zhang Shuo arrived at the venue, walked onto the podium, and gave a polite smile to the audience.

Then, we officially entered the report.

The screen in the lecture hall has displayed the title - "Synergy and Reaction Correlation between Strong Force and Electromagnetic Force in Nuclear Fusion".

This theoretical research of level C difficulty was also specially prepared for the conference report. Its main content is to describe the role of electromagnetic force and strong force in nuclear fusion reactions.

Zhang Shuo spent about ten minutes from the beginning of the introduction to the explanation of mathematical logic. Just like what others thought, the main content of the report was to explain the theoretical relationship between the two forces and nuclear fusion reactions.

But the next sentence suddenly made the venue quiet, "The commonality of their existence has always affected nuclear fusion reactions."

"From the conclusions just now, that is, ③ and ⑦, we can find that when the electromagnetic force and the strong force are in the same range, they will create a chaotic force field."

"In this way, the strong effect will be limited, and by interfering with the activity of the particles and the reaction speed, you will directly affect the reaction."

"Each value of magnetic field strength has a corresponding common strength range. So can we assume that a certain change in magnetic field strength can affect the rate of nuclear fusion reaction?"

"It makes sense in theory, and I think it's also feasible in practice!"

As the conversation went on, the venue suddenly became noisy.

Zhang Shuo only elaborated on one possibility, which is to control the rate of nuclear fusion reaction by adjusting the changes in magnetic field intensity.

However, its significance is very significant.

There is no need for any tokamak device at all. The rate of nuclear fusion reaction can be stably controlled by constantly changing the magnetic field.

If the research is correct, wouldn't it represent a completely new way to control nuclear fusion reactions and a new way to achieve controlled nuclear fusion?

The Tokamak device that controls nuclear fusion seems to have reached a stagnation with the existing technical support, and even if there are any research results, they are very small.

New Direction…

Maybe it will work?

By then, humans will have mastered the technology of controlled nuclear fusion!
(End of this chapter)