Research starts with PhD students

Chapter 308: Only by using clean energy can the earth have a future!
"This is not academic worship, but an analysis based on reason..."

Liao Zhenyu said very seriously, "Until now, the mainstream theory of new physics is the research of Academician Zhang Shuo."

“In the new physics direction, in the study of source point theory, there may be people who have done more in-depth research than Academician Zhang Shuo.”

"I can't do it, you can't do it, and no one else can do it either."

"He knows a lot and does in-depth research. His inference based on theory and his control over experiments will naturally be very in-depth."

"So there is no need to doubt Academician Zhang Shuo's judgment, because there is a theoretical logic in it that we cannot understand..."

Shi Xiuling was a little confused by these words, and she felt that she had no way to refute them.

In the field of new physics, Zhang Shuo is the undisputed number one. No one can compare with him and his authority is unquestionable.

Zhang Shuo's theory and the experimental research technology based on it have led to the development of new physical technology.

Many technologies that we never dared to think of before have emerged.

Gravity technology, gold manufacturing, new nuclear energy...

Of course, it also includes the unknown energy technology that has been hotly discussed in the public opinion. The most talked about is low-temperature nuclear fusion, but it is just a guess and we don’t know what it is specifically.

That must also be one of Academician Zhang Shuo’s research topics.

The same is true for the current experiment. Academician Zhang Shuo said some new things and adjusted the experimental plan. Perhaps only he knows the theoretical principles.

In any case, the principle is definitely not public.

There is no point in them wasting time discussing it; they should just focus on their experimental work.

……

The new experiment officially began and the Physics Center became lively.

On the day of the experiment, Mr. Wang from the Science and Technology Department was in charge. He was not there to check on the experiment, but to supervise Zhang Shuo.

The experimental plan is brand new, which means there may be great risks.

Professor Wang was very worried about Zhang Shuo going to the frontline to conduct experiments. After sitting down, he kept emphasizing, "You must not go. No matter what the theory is, you must stay here."

He said this very seriously.

Zhang Shuo also sat down with a wry smile on his face, "I will definitely not go to the experimental base. Research makes me pay the most attention to safety, don't worry."

"I'm really worried!" Teacher Wang's expression was vivid. He said earnestly, "Zhang Shuo, I know you are fanatical about theory. You seem to be like this when it comes to science and experiments, as long as it's research."

"There must be a reason for adjusting the experimental plan this time, which may bring risks. I am really worried..."

Teacher Wang kept emphasizing that he felt Zhang Shuo was the kind of scientist who disregarded his personal safety and was brave enough to rush to the front line of experiments.

For the sake of new research and new technology, people may even disregard their own life safety.

This spirit is worthy of admiration, but it is definitely not discouraged, especially for Zhang Shuo, whose safety is more important than anything else.

Zhang Shuo could only smile bitterly. He couldn't say that he was a coward. He was worried that there would be problems with the front-line experiments, so he would definitely not go to the laboratory.

In fact, he paid more attention to safety issues than anyone else because he had an experience that was very scary when he thought about it.

Now I don’t even have the mentality of taking chances, I won’t get close if there’s any risk.

It’s like someone who is desperate and jumps off a building. He is lucky enough to be safe the first time he jumps, but after facing death once, he will feel fear in his heart, and he may be afraid of heights again if he goes upstairs again.

Of course, people with mental illnesses are exceptions.

The experiment has officially begun.

The particle collision experiment and the chaotic force field experiment were carried out together and took about half a day.

By the afternoon, the data was out.

The experimental base began to get busy, and the physics center began to get busy.

Zhang Shuo is relatively free. He is not responsible for much work. His main task is to check data summary information and complete subsequent experimental research summary work.

Zhang Shuo did not participate in the previous experiments.

The work that originally belonged to him has been assigned to other people. Yu Fei, Liao Zhenyu, Shi Qiuling, and several international scholars are each responsible for a part of it.

When he participated in the experiment again, even though there was a new experimental plan, most of the work was still similar, so he did not intervene.

As for the collation and analysis of experimental data, the school can just follow the routine procedures.

The new experiment is not much different from the original one, and the final data analysis is just to rule out the decay of tritium.

During the experimental preparation process, many radioactive tests of tritium decay in strong magnetic environments have been carried out. After leaving aside the basic measurement data, we can look for the impact of tritium decay on the changes in the chaotic force field in the remaining data.

Of course, as simple as it sounds, the analysis is actually quite complex.

This involves the problem of data screening, and the results of experiments with specific values ​​of the chaos force field will naturally fluctuate greatly, so it is difficult to find the impact.

A large number of scholars did the analysis, and after a week of hard work, the basic data work was quickly completed.

It can be seen from the final data that the impact of the chaotic force field conversion force has been greatly weakened.

This is the conclusion drawn from the analysis.

The powerful influence of the chaotic force field transformation itself has huge fluctuations, and the new experiment makes the fluctuations lower than the lower limit of the original experiment.

"The result may be a coincidence, but it is more likely to be the effect of tritium decay."

"Our analysis is based on data from more than a dozen previous experiments. The final result is more than 30 points lower than the intensity data assessment of the seventh experiment..."

Yu Fei concluded.

In the special data experiment of strong magnetic interference hyperon decay, the chaotic force field will be transformed into strong force, and the intensity can also be measured by the transformation.

The greater the intensity, the greater the impact on the external protective layer of 'mixed rare gas', and a certain proportion of the rare gas elements will undergo nuclear fission reactions.

This data can be measured accurately.

The lower the intensity, the fewer rare gas elements will react.

Among the dozen experiments conducted, the seventh experiment had the lowest intensity. Now, with only one experiment, the intensity has dropped by more than 30%. This means that we cannot conclude with % that it is the influence of tritium, but we can conclude that "it is most likely the influence of tritium."

If we conduct a few more experiments and see that the strong conversion rate decreases, then we can naturally confirm it.

The current results can be classified as new discoveries.

No one knew what the results meant, but they were all very excited. New discoveries meant new research directions, and at worst they could be used to write a theoretical paper.

After the summary meeting, Yu Fei, Liao Zhenyu, Shi Qiuling and a group of people surrounded Zhang Shuo and asked about the significance of the conclusion.

Zhang Shuo shook his head and said, "To be honest, I don't know either."

"The only thing that is certain is that the decay of tritium affects the weak force, and the change in the weak force affects the transformation of the chaotic force field into the strong force."

"There is still very little research on the weak force, and the specific physical connection is still unclear."

“We need more theoretical research.”

"My main work recently is to describe the weak force mathematically with a new physical theory, and to link the weak force with the other three forces..."

Zhang Shuo said calmly, but he was a little excited. He thought it would take several experiments to get results, but he didn't expect to find the data discrepancy problem in the first experiment.

The decay of tritium affects the transformation of the chaos force field.

This conclusion is very important!

Based on the conclusions, we can study more specific new physics technologies, including nuclear splitting and gravity creation, which can be studied experimentally.

Then we can indirectly verify the effect of weak force, and the blind man can "touch" more things by touching the elephant.

After hearing what Zhang Shuo said, the others were also filled with shock.

They thought of a major problem in physics - the unification of the four major forces.

Newtonian physics, Einstein's theory, quantum physics, etc., have not been able to achieve the unification of the four major categories. The only one that has the opportunity to unify the four forces is string theory, but string theory only provides a vague description of the data and cannot be directly verified by experiments.

The unification of the four major forces is also considered to be the ultimate goal of physics research.

In the new direction of physics, electromagnetic force, gravitational force and strong force have achieved a certain degree of connectivity and can even be transformed into each other.

If we add a weak force and build a connection between the weak force and the other three forces...

The four forces can be placed within a mathematical theoretical framework and their correlation can be directly verified through experiments.

Isn't this the unification of the four major forces?

……

A new experiment is over.

The experimental data, summaries and research papers were placed on the data platform, attracting significant attention from the international academic community.

Many research papers believe that it is the weak force that causes the chaotic force field to transform into a strong force deviation.

Some studies have also used experimental data to mathematically describe weak force under the basic force relationship model, which has aroused discussions among many physicists.

There have been few breakthroughs in the study of weak forces in physics.

It turns out that the description of weak force is only based on some experimental findings, and using the existence of weak force to analyze physical problems is the traditional way to study weak force.

Some experiments are attributed to weak force, but the basis is just some theoretical explanations.

Now the chaotic force field experiment has discovered the "weak force effect", even if it is just an analysis, it is very remarkable
This is the first time that weak force has clearly appeared in experimental research in a new physics direction.

Many scholars believe that "the experimental discovery is a major breakthrough in basic force research!"

“It’s a major breakthrough in new physics!”

"It will play a vital role in the construction of the basic force relationship model!"

Some people even suggested that "the discovery of weak force is expected to solve the problem of unifying the four major forces in the direction of new physics."

The four forces are strong force, weak force, electromagnetic force, and gravitational force.

Microscopic physics has solved the unification of strong force, weak force and electromagnetic force, but gravity cannot be brought into it.

The direction of the new physics is somewhat different. Electromagnetic force, gravitational force and strong force appear frequently, but the weak force has never been discovered.

Obviously, the two physics are 'unified' in different ways.

When new physics research involves weak force, if the relationship between weak force and the other three forces can be established, the unification of the four forces in the new physics direction will be completed.

The construction of weak force suddenly became the top priority in the research of new physics theories.

Many physicists went crazy. They couldn't wait to plunge into the study of weak force in the new physics direction. Even if they could only relate the weak force to the other three forces theoretically, it was a remarkable achievement.

Of course, research is difficult.

Now only a new chaotic force field experiment has discovered the effect of weak force, and it is not 100% certain yet, and it is even possible that the conclusions drawn from the analysis are wrong.

But just the fact that it's 'possibly correct' is enough to drive physicists crazy.

……

Basic physics research is only valued by physicists.

Ordinary people cannot understand the experiments or the research, and they are not interested in the chaos force field experiments.

The same is true for those departments and institutions that focus more on technology. They pay more attention to real technology. The research on weak force is like a mirage. No matter how thorough the research is, it is very difficult to transform it into application.

Low-temperature nuclear fusion is more realistic.

After the gravity aircraft was reported, many countries began to support low-temperature nuclear fusion research, and most of the research started with replicating the "nuclear power conversion experiment."

One thing that is clear is that nuclear power technology has nothing to do with the realization of low-temperature nuclear fusion.

How is low-temperature nuclear fusion achieved?
There is no theory, no experimental direction, let alone any technology to research.

The chaotic force field experiment attracted a lot of attention, and people were just looking forward to what new discoveries would come out of the experiment. The result was... weak force?
What is the use of weak force!

Even if the four powers are unified, what does it have to do with technology!
Scholars who study technology have come up with a question: "Is it possible that the weak force is responsible for the low-temperature operation of nuclear fusion?"

This is just a technical inference and has no real theoretical support.

On the other side of the earth, technology-focused institutions have been discussing related issues. They also have to do research because the technological gap in the new physics direction has already brought about a tsunami-like impact.

The country has already manufactured a gravity aircraft, which also has a new energy technology that can support the continuous operation of the gravity system.

They don't even know the technical principles of the energy source, and can only "infer" it, believing that it is a "perfect energy source achieved by low-temperature nuclear fusion combined with nuclear power conversion technology."

There is also a huge difference in gravity technology.

The country has already mastered the technology to create gravity that is higher than the Earth's gravity, but their organization can only produce a maximum of 0.4 times the Earth's gravity, and it can only be achieved in the laboratory.

Not to mention other technologies in new physics directions.

Ion weapons, gold manufacturing, new nuclear energy, and more.

The impact of this gap is no longer limited to high-end technology, but has spread to all aspects, including finance, economy, military, and future development potential...

The latter is important.

Many large international investors come to China to invest because they believe that China will lead the research on new physics and become the world's science and technology center in the future.

At the same time, the outflow of large amounts of capital also affects the development of other countries and leads to a series of economic problems.

Economic issues are of paramount importance.

When there are problems in the economy, other problems will follow.

When public opinion was still fermenting around the "gravitational aircraft", some influential figures stood up and called for "basic physics research to be shared with the world!"

"It is an international consensus that physics theories should be open. No country or scholar should violate the principle of openness in basic physics!"

Some people even directly called for "the energy technology of gravity aircraft should be made public!"

"New nuclear energy and low-temperature nuclear fusion technology are perfect clean energy. They are related to the common development and future of mankind. The technology must be made public."

"Only when humans use clean energy can the Earth have a future..."

(End of this chapter)