Although Chen Zhou was surprised, he didn't ask anything about Cross's sudden action of bringing the barbecue back for midnight snacks.

He never thought that this was a compensation that Cross felt so guilty of eating and living freely.

Seeing that Chen Zhou was eating very deliciously, Cross quietly raised a thumbs up at Xiong Hao.

It was all because of Xiong Hao's guidance that he bought this barbecue.

Only then can I feel at ease and continue to eat and live here with Chen Zhou...

In this way, in the days that followed, Cross brought midnight snacks to Chen Zhou and Xiong Hao almost every night.

Chen Zhou was puzzled for a long time because of this.

He thought that Cross wanted to bribe him through midnight snacks.

When Chen Zhou asked Cross clearly the reason, he couldn't help but feel a little amused.

He wanted to tell Cross that he was more willing to receive food expenses than late-night snacks...

After the midnight snack was resolved, Chen Zhou immediately washed up and went back to his room to sleep.

With the current research progress, the so-called retreat and liver explosion research are unnecessary.

Some things are really not something that can be consumed just by relying on time.

Chen Zhou also has an absolute say in this.

In the past, he had to go into seclusion or study the liver.

That's all because the progress of the research project has reached a critical moment.

He needs to do his best to win the entire research topic.

Now, even the research on normative field theory is in the stage of a tough battle.

But there is still a lack of critical content and the critical moment of the battle has not arrived.

Since this is the case, it is better to sleep well and accumulate energy.

...

It was another week, and before I could feel it, I slipped out of my hand.

Yan University’s faculty and staff apartment, in the room of Chen Zhou’s dormitory.

"Since the 1960s, three physicists, Grazhao, Weinberg and Salam, proposed the theory of weak current unification, the research on the theory of great unification has also made the first breakthrough..."

"However, from the perspective of the entire history of science, the first physicist to seriously think about it and start researching it was Einstein. After completing the theoretical construction of general relativity, he has been considering whether gravity and electromagnetic force can be unified..."

Looking at the information in front of him, Chen Zhou's mind kept echoing in his mind, the research process of the Great Unified Theory.

After the theory of weak current unification, the success of this theory affirms the correctness of the idea of ​​unification of interaction forces.

This has prompted many physicists to further study and unify the three interaction forces of strong, weak, and electromagnetic forces.

And, the huge unified theory that also unifies gravitational interactions.

It was probably in the mid-1970s that physicists further proposed a great unified theory of the unity of three interaction forces: strong, weak and electromagnetic forces.

This unified the theory of strong, weak, and electromagnetic force, which is the normative field theory.

Gauge field theory plays a very important role in physics.

It accurately describes the experimental predictions of three basic forces in nature.

From the unified theory of weak current to the normative field theory, the unified theory of strong, weak force and electromagnetic force is unified.

There are probably only a dozen years apart.

This time can be considered very short, or it can be called rapid progress.

However, the gravity that Sir Newton had discovered for hundreds of years was never able to be integrated into the theory of great unification.

From this, it can also be found that gravity is the most difficult part of the theory of great unification.

I can only say that Einstein chose the most difficult research content from the beginning to challenge.

Chen Zhou felt that if Einstein had chosen the theory of weak current unification to study it.

There may be no such thing as Grazhao, Weinberg and others.

Chen Zhou had no doubt that Einstein could make outstanding research results in this regard.

It's a pity that Einstein is just like him.

The selected research topic is to admit the truth until the topic is completed.

The result is that either fight to the end and achieve nothing.

Or it is amazing and shocking the world.

Putting away this extra thoughts, Chen Zhou's research ideas returned to the normative field theory again.

The concept of normative field was first proposed by Professor Waiel.

Then, Mr. Yang and Professor Mills’s Yang-Mills’s gauge field theory laid the foundation for modern gauge field theory.

Gauge field theory is a type of physical theory that can implement this idea locally or globally based on symmetric transformation.

The Yang-Milles gauge field theory is the gauge field theory of non-exchange symmetric groups.

Physical systems often use Lagrangian expressions that remain unchanged under certain exchanges.

When transformations are performed simultaneously at each time point, they have global symmetry.

And normative field theory promotes this idea.

It requires Lagrangian quantity and must also have local symmetry.

These symmetric transformations should be performed in specific areas of time and space without affecting another area.

This requirement is actually a promotion of the equivalence principle of general relativity.

Chen Zhou, who flipped the draft paper, reviewed the content of the normative field theory again as his thinking progressed.

The thoughts in my mind are constantly moving forward, and the neutral pen in my hand is constantly on the draft paper, leaving ink at the same time.

Chen Zhou suddenly muttered: "Did Einstein think of something from the beginning? He had long known the key to breakthrough, in gravity?"

With this muttering, the pen in Chen Zhou's hand slowly stopped.

With a question, Chen Zhou turned his head and looked back at the draft paper in front.

The question Chen Zhou brought about is nothing else, it is precisely "Why can't gravity be included in the gauge field theory?"

After turning around for a while, Chen Zhou murmured softly: "Graining force is the nature of space-time, and the other three basic forces are manifestations of the specific material properties of objects or particles in space-time."

"From this perspective, it can even be considered that only gravity is the basic force of the universe, and the other three basic forces are only auxiliary basic forces!"

"That is to say, from the very beginning, gravity should not be included in the existing unified theoretical system, but the other three basic forces should be included in the category of gravity..."

Thinking of this, Chen Zhou's eyes suddenly brightened.

He finally understood one thing now, that is, from which angle should we study normative field theory.

How to coordinate the relationship between normative field theory and large unified theory.

Gauge field theory can represent the great unified theory to a certain extent.

After all, gauge field theory is a research theory born in the process of research on large unified theory.

However, the great unified theory is far from a completely substitute for the gaugular field theory.

Simply put, the two have great intersections, but there is no intersection. The great unified theory is far beyond the scope of the gauge field theory.

After confirming this idea, Chen Zhou immediately picked up the neutral pen he had put down and brought a stack of brand new draft paper.

While he was thinking, he wrote:

[How to incorporate the other three basic forces into the category of gravity?]

[Research direction: 1. Gravity is the property of space-time, and space-time is energy, space-time. Therefore, gravity is energized and gravity is studied from the perspective of quantum mechanics.]

[2. Through quantization of energy space-time, a differential nonlinear wave equation or system of equations can be established, thereby incorporating the theory of the qualifying group su(3)×su(2)×u(1) in the existing gauge field theory.]

The two research directions are also the conquest directions established by Chen Zhou at this moment.

There is no doubt that if there are new differential nonlinear wave equations or systems of equations, it will be the final research result of gauge field theory.

As for feasibility...

Chen Zhou, who can already be called a special research expert, has great confidence in the research direction he has written.

Since the main direction of conquest had been determined, Chen Zhou immediately started the research.

This has troubled him for so long and fought for such a long time, and now it seems that he has finally had a breakthrough idea.

Of course, Chen Zhou didn't dare to be 100% sure, his idea was right.

All the answers still have to wait until he finishes the battle.

Some differences from previous research are.

In this study, Chen Zhou increased the proportion of use of wrong questions.
To be continued...