Research starts with PhD students

Chapter 332 Results released, physics can be so difficult!
At the Large Hadron Collider experimental base, a new round of hadron collision experiments has begun.

This is the first formal experiment at the experimental base. It has been conducted three times before, but they were all small-scale test experiments with relatively low experimental intensity.

Now it is a large-scale experiment. During the experiment, the proton beam will be accelerated to a level extremely close to the speed of light. Tens of thousands of particle convection collisions in an instant will produce more than 500 billion hyperons and control them to enter the chaotic force field experimental equipment.

The chaos force field experiment is also the core branch of this experiment.

There are many research projects in hadron collision experiments, and the chaotic force field experiment is the most important one. The collision analysis of hadron collision itself is also very important. In the new physics direction, it is also related to the extended research on the energy force field gauge theory.

After the experiment officially began, the hadron collider started to enter the stage of particle acceleration, and the buzzing sound of the machine could be heard if you were closer.

After the particle acceleration reaches a certain level, the collision phase is not long, less than half a minute from the estimated start to the end, and the actual collision only takes a moment.

In a moment, about one second, a muffled sound can be heard near the collision point, but in fact, the collision has occurred more than ten thousand times. It is not a collision of tens of thousands of particles, but two proton beams in opposite directions, which have encountered more than ten thousand times near the collision point.

The speed of the proton beam is so fast that it can make more than 10,000 circles in the circular particle acceleration channel within one second.

Around the particle collider, I only knew a dream, and then it was over.

During the whole process, Zhang Shuo kept staring at the picture in the chaos force field experimental room.

During the proton beam collision, the hyperons were controlled and quickly entered the chaotic force field experimental equipment.

The chaos force field experiment was conducted later than the particle collision, but not by much, only about a minute.

Many people were staring at the chaos force field experiment room.

The chaos force field experiment is the core of the core and also the link most prone to problems. There are risks in the experimental process.

The direct person in charge of the laboratory is Yu Fei. Among the others, some are original members of Yu Fei's team, some are members who joined later, and some are international scholars.

Including Muhammad and Joe Denier, they are all following the experiment on the front line.

The experiment ended quickly without any problems, and many people breathed a sigh of relief, because experiments involve risks and everyone is a little worried every time they do an experiment.

Now that the experiment is over, I can feel a little more relaxed mentally. The next step is to analyze the data from each group of experiments.

Data analysis cannot produce results immediately. The analysis and organization of basic data will take about ten days.

After the experiment, a lot of data has been transmitted. The most important data is the data of the chaos force field experiment, especially the data related to the 'strength of the chaos force field converted into strong force'.

This experiment adopted the parameter adjustment plan of Zhang Shuo's team.

At the experimental meeting, Zhang Shuo also talked about the laboratory's verification of the theory. The solution they came up with can weaken the transformation of chaotic force field to strong force.

The specific details will depend on the analysis results.

In fact, the transformation of chaotic force field into strong force can also be seen from the atomic ratio of the outer rare gas that resists the reaction.

This is a directly measured data, which is very intuitive, but relatively less accurate.

Zhang Shuo was not directly involved in the data analysis work.

They come here to provide the experimental plan, and then you can just wait for the results.

Liu Mingkun, Guo Hua and others worked together and joined Liao Zhenyu's "audit team", which can be regarded as a kind of work experience.

While others were busy with data work, Zhang Shuo became very free. He had time to wander around and occasionally stay in a cafe in the business district.

There are other people who have free time, such as Shi Qiuling.

Shi Qiuling is the head of the academic group and is only responsible for the final review work, so it is not yet time for her to be busy.

They sat together and discussed experimental issues, mainly the underlying theoretical issues of program design.

Shi Qiuling said curiously, "Academician Zhang, you talked about the impact of quantum entanglement amplification effect at the conference, but you only said a few words. If the experiment meets expectations, what does it mean?"

Zhang Shuo took a sip of coffee and explained, "For current experiments, the two most important issues are results and data."

"We certainly hope that the results are in line with our expectations, and that the data will help us continue to build on the underlying theory."

"If the experiment meets expectations, it means that there is no problem with the design of the scheme, and the underlying basic theoretical support may be correct."

"More experiments are needed to be completely certain."

Shi Qiuling nodded after thinking about it. "After conducting several experiments, what should we do next?"

"Measure the quantum entanglement." Zhang Shuo said decisively.

"Measure quantum entanglement? During the experiment?"

"Correct."

“It’s not easy, is it?”

Zhang Shuo nodded. "It is indeed not easy. We need a very professional basic quantum research team."

“It also takes a lot of thought to design the experiment.”

"But it's all worth it. The experiment is in line with expectations, which means our underlying theory is correct. The completion of the measurement of quantum entanglement will help us understand a new law of physics."

"This law can link quantum entanglement, chaotic force field transformation and particle physics together."

"Think about it..."

Shi Xiuling thought about it and suddenly her eyes widened. "By combining several kinds of physics together, can we further unify physics?"

"That's understandable."

Zhang Shuo said, "In the direction of physical unification, we have actually come a long way. The basic force relationship model is the unification of the four major forces."

“But in fact, there are also deep problems in the unification of physics. For example, we often distinguish quantum physics from particle physics. There is not much connection between them, especially in the transformation of science and technology. Quantum physics is used to study quantum computing or communications that cannot be realized for the time being, while particle physics is all about the study of various rays.

"By linking quantum physics, particle physics, and chaotic force field experiments together, we can use a set of universal standards to analyze physics..."

“That’s what we’re after.”

……

The data related to the transformation of chaotic force field to strong force is the most important in the experiment and has attracted a lot of attention. All data are calculated and analyzed as a priority.

By noon the next day, a lot of measured data had come out. In the large conference room of the center building, Liao Zhenyu took the information and made a report, "We have completed the summary of all relevant data and determined the final conversion intensity, which is lower than the lower limit of previous experiments."

"The specific value is..."

"Considering the experimental intensity, we calculated ..."

“This shows that the experiment has achieved the expected results, but it cannot be directly confirmed at this point. More experiments are needed to calculate the deviation fluctuation.”

Only with enough experiments and enough data can we verify the basic theory.

Although it will take many more experiments to confirm it, the success of one experiment still makes people very confident, especially since the experimental plan is also related to Zhang Shuo, which makes people more confident.

Everyone thought it was okay.

All that needs to be done next is to conduct a few more experiments. The next step is to explore why the design is made in this way and what its basic theoretical support is.

In the following week, many people came to ask this question.

Zhang Shuo made some explanations and also came up with a basic mathematical framework, but because there was only a framework and no detailed data, the calculations and analysis were also very vague.

"We still need more data to refine the theory."

"Once the theory is completed, it will be published in Source Point Physics."

"The research is still ongoing. It has only just begun. The only thing that can be confirmed is that the transformation of chaotic force field to strong force must involve quantum entanglement."

"In this reaction, the strong and weak forces work together."

After the basic theory is explained, many people just feel that it is very complicated, but they are also very much looking forward to the theory because it involves many fields.

Particle physics.

Quantum physics.

The basic force relationship model for the transformation from chaotic force field to strong force is also called source point physics.

When these three people are put together, the theoretical basis must be very complex, and some of the content will be very novel.

The amplification effect of quantum entanglement is a completely new term in physics, and it affects the transformation of chaotic force fields.

Before the experiment, no one else had been able to connect the two.

This also brings more expectations to people.

……

A week later, all data work was completed.

Zhang Shuo led the team back to the Source Point Theory Research Center and began to improve the underlying theory based on experimental data.

I have gained a lot during this period. On the one hand, the theoretical basis has been verified, and on the other hand, the experimental data can help improve the theory. The most important part is to improve the part where quantum entanglement affects strong force transformation.

The experimental data at this stage is still insufficient and more experiments will be needed in the future.

The improvement of the theory must be completed at this stage, and in the middle, we must also start the experimental design work for the next step of quantum entanglement measurement.

Experimental and theoretical research is very boring, but people in the theory office enjoy it. They feel that they are doing a great cause unprecedented in the scientific world.
The pursuit of the unification of physics.

Although they have only reached the first step, which is to construct the theoretical basis, they believe that after the unification of physics in the future, the foundations and mathematical expressions of various fields of physics may use the current work results.

This boring work lasted for nearly half a year.

Four mid-course hadron collision experiments were conducted, which also brought a large amount of basic data, which was of great help in improving the theory.

Half a year later, a new issue of Source Point Physics was released. The first article took up nearly half of the page. The title was:

"The amplification effect of quantum entanglement in strong force transformation".

Many scholars in the field of physics are a little confused when they see the title, because they can't understand it at all and don't know what it is talking about specifically.

Impact of quantum entanglement?

Amplification effect?

How is strong force transformation related to quantum entanglement?

When actually reading the content, scholars in the fields of quantum physics, particle physics and even source point physics all had a headache. They felt that the content was obscure and difficult to understand, just like reading a book written in a foreign language.

The combination of the three types of physics, coupled with the new mathematical framework and new theoretical content, is really difficult to understand.

Although there are some annotations and a general introduction in the paper, and I know what it specifically expresses, it is still too complicated.

However, the international physics community, especially top physicists, all know that the content of the paper is very important, because it involves three major fields: particle physics, quantum physics, and source point physics. The research that combines the three is absolutely amazing.

In addition, the research also involves another person - Zhang Shuo.

Zhang Shuo’s theory is the technical basis for a new source scientific and technological revolution.

How can we stand at the forefront of physics if we can’t even understand the theory?

How can we carry out technological research and development?

For a time, top physicists were all focused on understanding the contents of the paper, causing the international physics community to become somewhat silent.

At the same time, some top physicists also stood up to express their feelings, "Professor Zhang Shuo's newly released theory is very profound."

"How can I describe this level of profundity?"

"If someone can understand all of this, it will be enough to get a tenured professorship at the top universities, because..."

“Even a tenured professor at a top university may not be able to fully understand it even if he spends several months reading it.”

“This is really profound!”

"This is the first time I know that physics can be this difficult..."

(End of this chapter)