Research starts with PhD students

Chapter 170 This will be a very, very great study!

After Zhang Shuo stepped down from the stage, he sat back down, and Isad Reese's research topic came to an end.

Many scholars have mixed feelings.

They all thought that "the unknown phenomenon is CP violation" was a big proposition, and did some thinking and research based on this. As a result, it has become useless now because Reese's research has been proven to be meaningless.

While feeling depressed, he also cursed Isad Reese, "You actually submitted a study on a false proposition to Science magazine!"

“It was published in Science-Physics?”

"You can't trust famous foreign scholars or famous journals!"

"It is easier for foreign scholars to publish papers on a new discovery in physics, but there is no other way..."

For research of the same level, because influential journals are all foreign, the publication requirements for domestic scholars are relatively high.

On the one hand, it is a language problem, and on the other hand, it is a difference in review.

When submitting to the same journal, some influential foreign scholars will have their papers approved as long as there are no major problems with the content, while the domestic review may be more stringent.

Language is also a big problem.

If you are submitting to a Chinese journal, language is not a problem at all. You can just write down the content of your research and submit it.

English, after all, is not a commonly used language.

Even for mathematical papers, some expressions and analyses in the paper still need to be carefully considered and revised.

When a completely new physical content emerges, many scholars in the field of physics will conduct research. The research all starts from the same point, but due to comprehensive issues such as papers, reviews, and submissions, the number of papers published by domestic scholars in the short term is relatively small.

Of course, another reason is that there are relatively few scholars in the field of pure theoretical physics in China.

This is a very niche field.

After Zhang Shuo denied Isad-Reese's research, the conference set aside some time for discussion and then began to invite participating scholars to give research reports on stage.

This is a discussion meeting, not an academic conference. The reports will not be reviewed. You just need to go on stage and express your ideas.

Even so, many people have made preparations, such as doing some basic mathematical research on their ideas.

Many people still have ideas about the deviation analysis data released by the Computing Center of the Institute of High Energy Physics, and these ideas are from different fields.

For example, string theory.

For example, the analysis of the field of the standard model of particles.

Others have novel ideas, too.

Liu Mingkun, a young associate professor at Capital University of Science and Technology, analyzed the data released by the Computing Center based on the basic force relationship model created by Zhang Shuo, and explained the phenomenon of "force field chaos" in a mathematical way.

"The basic force relationship model created by Professor Zhang Shuo has many research directions. I used the basic framework as a template to fill in the data and found that there is a certain correlation."

"The simulation deviation is likely due to the commonality found in the basic forces. In other words..."

Liu Mingkun conducted his research based on the basic force relationship model. After some analysis, he discovered some mathematical correlations.

Research from this angle will definitely be related to basic forces.

Zhang Shuo listened with great interest. Liu Mingkun said some new things that he had not expected.

Everyone thinks differently.

Zhang Shuo has discovered his shortcomings in research, especially in research related to the theory of origin. A large amount of relevant knowledge from his previous life is stored in his mind, which limits his thinking in certain directions. It is not easy to expand his thinking into new content.

This is actually a limitation on creativity in a single field.

When there is a lot of knowledge in a single field, covering all aspects, if you think about some content, a lot of related knowledge will appear, and your thinking will be restricted by the knowledge system.

Other people don't have this knowledge, so they need to think from other directions, and some new ideas will come up.

Of course, there is nothing good or bad about either.

Zhang Shuo can also think of some angles, but he will not do so because he has a simpler and more direct method, but other people's ideas can also bring him a lot of help.

For example, research progress has increased.

A report by Liu Mingkun increased the progress of "theoretical connection between electromagnetic force and gravity" by nearly 1.3%, indicating that the innovative ideas in its content are indeed helpful for theoretical research.

'Theoretical Relationship between Electromagnetic Force and Gravitation' is also a Grade A difficulty research. Each progress requires '30' points of scientific research coins. The progress can be increased by more than 1%, which is already quite high.

……

The rest of the morning ended with one scholar after another giving a report on stage.

The discussions held by the Physics Center are very free. Scholars are not always asked to give reports. Two hours of free time are arranged in the afternoon, during which scholars can either rest or go to small meeting rooms or other rooms for academic exchanges.

At three o'clock, everyone returned to the conference room. Those who were interested could continue to listen to the report, and those who were not interested could continue the discussion.

The discussion will not review the report, so the speeches will be very casual.

Zhang Shuo had been sitting with Yan Ming, Yang Haifeng and others, and he listened to their opinions on the data published by the Computing Center of the Institute of High Energy Physics.

Yan Ming is a scholar studying string theory, and his research is always inseparable from obscure mathematics.

Yang Haifeng prefers to analyze from the perspective of the standard model of particles and quantum physics. He hopes to classify unknown physical phenomena into the standard model of particles, or to expand the coverage of the standard model of particles.

The Standard Model of Particles is not a theory, but a very large microscopic framework that covers a very wide range. The Yang-Mills equation is also the basic theory of the Standard Model of Particles.

The analysis from this perspective is to find the cause of simulation deviation based on existing theories.

Of course, it is difficult to produce results from this kind of research, but the mathematical content is still very interesting.

During the continuous communication, Zhang Shuo never spoke. He just listened to other people's opinions, or made a comment, or expressed his own views on the research direction, etc.

At 3:30 in the afternoon, no scholar took the initiative to come on stage to give a report.

Yan Ming immediately asked Zhang Shuo, "Professor Zhang Shuo, do you want to go up and say a few words? Your basic force relationship model has been affirmed by Mr. Witten. This new theoretical direction also supports the experiments of the CP group. You should also have research on the problem of simulation deviation data."

Zhang Shuo nodded slightly. He glanced around and found that he could not go on stage again. He simply said, "Okay, I wanted to publish my research tomorrow, so let's do it now."

After he finished speaking, he took out some information and then walked towards the stage.

When Zhang Shuo walked onto the stage, the venue suddenly became quieter.

Many people are looking forward to seeing Zhang Shuo.

The particle collision experiment deviation analysis algorithm of the Computing Center of the Institute of High Energy Physics is the result of Zhang Shuo's research. The basic force relationship model he created supported the experiments of the CP group, which led to the discovery of the phenomenon of particle motion deviation.

Some people speculated, "Professor Zhang Shuo's research should be related to the basic relationship model, right?"

"His research supports the experiments of the CP group. Should the theoretical research in the experimental direction of the CP group be used to correlate the data of the computing center?"

"This requires the assumption that the two phenomena are consistent?" "This assumption should be fine, right?"

Many people believe that Zhang Shuo will start with the experimental direction of the CP group and then link it to the data released by the Computing Center of the Institute of High Energy Physics.

This would be something worth listening to.

Zhang Shuo walked to the stage easily, and then wrote a few words on the blackboard, which immediately made the venue boil -

Gauge theory of energy and force fields.

"Energy and Force Field Gauge Theory? This title looks so big..."

“This shouldn’t be a small study, right?”

"It feels like the beginning of a brand new and huge theory, but it shouldn't be at a conference like this... and the data from the computing center hasn't been released for too long..."

Zhang Shuo turned around and said casually, "This is my latest research. I wanted to release it tomorrow, but no one came up on stage just now, so I just came up."

The venue fell silent again.

Zhang Shuo continued, "The energy and force field gauge theory is based on the data released by the computing center to continue to build the theory of the 'basic force relationship model'."

"Origin Point Theory, everyone should have heard of this name. I have always hoped to further improve the theory, preferably with underlying basic support."

“The computing center helped me when it was released. I did research based on the data and found the canonical relationship between energy and force field.”

This statement once again sparked discussion among the audience.

Zhang Shuo's paper published in Physical Review Letters and Edward Witten's comments made many people aware of the "fundamental force relationship model", also known as the "source point theory framework".

Now he says he hopes to find a basic support for the theory, and then use the data from the computing center to do research and find the connection between energy and force field?
This is really amazing!

After Zhang Shuo finished explaining the basics, he did not explain further, but instead began a mathematical demonstration.

The demonstration started with the analysis of data released by the computing center. The key parameters included deviation, energy loss and various types of detection signals. After the data was statistically analyzed, a chart was made and then converted into function analysis.

This is the key to moving from statistics into mathematics.

Even if you are just listening from the audience, or even if you don’t understand some of it, you can see that what Zhang Shuo has created is a huge system.

Those who could understand remained silent. They had no time to say anything. They just focused on understanding, fearing that if they were distracted they would no longer understand.

At the same time, they found that the logical deductions were very rigorous and some of the analyses were very sophisticated.

But what is the ultimate goal?

Yan Ming had doubts in his mind, as did Yang Haifeng and other scholars who specialized in theoretical physics research.

These derivations seem to have shaped a completely new mathematical framework, but do they simply continue to enrich the basic relational model framework?

Probably not.

Zhang Shuo first wrote the title - Energy and Force Field Gauge Theory, which sounds like a rigorous theoretical system.

“Could it be the relationship between normative energy and force field?”

"What is the relationship between energy and force field? Can the two communicate with each other? This is impossible."

“This violates the law of conservation of energy.”

"Or is it to achieve the transformation of the force field in the energy environment? Based on the data from the computing center..."

Some people continued to think, took a break and continued to listen carefully, only to find that they could not keep up with the rhythm.

Zhang Shuo continued to explain.

He tried his best to speak slower and would explain the difficult parts very carefully, but he also knew that it was impossible for everyone to understand.

Many of the scholars present are not professional researchers of theoretical physics, so it is very difficult for them to keep up with the complex theoretical ideas. As the saying goes, "crossing one field is like crossing a mountain." There is still a big difference between experimental physics and theoretical physics. Even if they are just different theories, the basic mathematical content is also different.

The process of shaping the Liplos-Pamir equation involves all aspects of particle collision experiments. It requires research on the experiment itself and theoretical physics, and it is still very difficult to understand.

Zhang Shuo spoke for an hour at a time.

There is actually not much research content, and the data is only a dozen pages long, but because the mathematics involved in each part is very complicated and the logical conversion relationship is very obscure, the most difficult to understand are the settings and analysis.

Settings and analysis are the basis of theory. One must accept these settings and analysis before one can accept the theory itself.

After speaking for another hour, Zhang Shuo took a fifteen-minute break and then went back on stage to continue his lecture.

During the lecture, the venue remained very quiet. Those who could understand listened carefully, and even those who didn't understand watched carefully.

Many people have this feeling.

The significance of this moment could be very significant because a completely new and rigorous theory is about to emerge.

This theory is also an analysis of the data released by the computing center and an explanation for unknown phenomena.

What exactly is it?

Those who don't understand are waiting for the final result.

They didn't have to wait long.

After Zhang Shuo returned to the stage, he constructed a set of equations in just fifteen minutes. Each parameter in the equations was directly related to the particle collision experiment, and used special parameters to describe the "chaotic force field", which can also be understood as a "set of basic forces."

Then, the relationship became obvious.

After Zhang Shuo finished writing all the equations, he turned to the audience and said seriously, "This is the research result, the energy and force field standard equation, which describes the relationship between energy loss, deviation and other parameters in particle collision experiments and the chaotic force field."

"There are two parameter adjustment equations, and the middle row is the most important."

"I will call it the energy field standard equation for the time being."

After Zhang Shuo finished speaking, he looked at the audience with a smile.

The venue was silent for a few seconds, and then it became boiling. "Energy force field standard equation? It's exactly what I thought."

"This shouldn't just be a theory, right? It's a direct study of the relationship between the unknown phenomenon of the particle pair experiment and the experimental parameters!"

"Can we do calculations with this equation?"

"Has it been verified? Isn't Professor Zhang Shuo afraid that there might be errors in his calculations? If the calculation results don't match the experiments, the research will be meaningless."

“Is there a possibility that has been verified many times?”

"If all particle collision experiments conform to the specifications of the equation...it would definitely be a very remarkable, very, very great research!"

"Yes, very, very great!"

(End of this chapter)