Genius of the Rules-Style System

"Zhao Yi, why are you here in the classroom? This is obviously a class in the Department of Mathematics..."

"Why is he here?"

"Did you listen to the whole class? By the way, a student seemed to have come in through the back door just now. Could it be him..."

Gao Yihua's mentality collapsed.

In the past few years, he has been teaching physics classes at the School of Life Sciences. He did not expect to meet Zhao Yi, a 'super student'. Not only is he a top mathematical talent, he also went to the European Organization for Nuclear Organization to flex his muscles and do tests. The problem of discovering new particles was simply solved at the experimental site.

With this achievement alone, he is recognized as the world's top physicist. Even insiders know that he uses more computer methods.

What does it matter? Results are what matters.

Even if you use completely unrelated biological knowledge, as long as you can solve important physical problems, your physics level will definitely be recognized.

Therefore, Gao Yihua felt that he could not attend class.

There was an internationally renowned physicist in the class. He didn't know how to teach. He barely survived the rest of the class. Gao Yihua was really depressed. He simply applied to be a teacher in the School of Science, which was far away from the School of Life Sciences. It's best if there is no connection at all.

This semester, Gao Yihua feels too relaxed.

Whenever he is in class, he can always think of his experiences last semester, and when he glances at the classroom, he immediately feels at ease.

Now……

It seems like it's back again?

"That guy!"

"here we go again!"

Gao Yihua didn't know how to react. He was stunned on the podium for a moment. When he noticed the strange looks in the students' eyes, he came back to his senses and knew that the normal class could not be affected just because of Zhao Yi's arrival.

This is not because of how dedicated he is, but because Zhao Yi sat quietly in the back row and did not affect other people.

As a teacher, he certainly cannot affect the course because of his own mentality.

So, go ahead!

Gao Yihua gritted his teeth hard and pretended that Zhao Yi didn't exist or didn't see anything, "He's not here! He's not here! He's not there! He's not here..."

That of course didn't work.

Gao Yihua's mentality was still affected. His face was no longer relaxed and free, but he became much more serious. Continuing what he had just said, he subconsciously spoke in a more detailed and in-depth manner.

"It doesn't matter whether other students understand or not...you must not be looked down upon!"

That's what Gao Yihua thought. He seemed to be undergoing a knowledge review.

…

Backstage.

Zhao Yi held his chin and listened carefully. He followed Gao Yihua's explanation and fell into thinking. Of course he knew about the problem of parity non-conservation.

That was the research of Yang Zhenning, a famous Chinese physicist and Nobel Prize winner in physics.

Parity nonconservation means that in weak interactions, the motions of matter that are mirror images of each other are asymmetric.

This research was later verified by Wu Jianxiong using cobalt 60.

Before 1956, the physics community always believed that everything in nature is mirror symmetrical, whether it is a strong force or a weak force, it will comply with the principle of mirror symmetry.

The understanding of ‘parity’ is that the mirror image of a particle has exactly the same properties as its own.

In 1956, the physics community discovered that the spin, mass, lifespan, charge, etc. of the two mesons, θ and τ, are exactly the same. Most people think that they are the same particle. However, when the θ meson decays, two π mesons are produced, and when the tau meson decays, two π mesons are produced. 3, which shows that they are different kinds of particles.

Contradictions arise.

This year, after in-depth and detailed study of various factors, Li Zhengdao and Yang Zhenning boldly asserted that τ and θ are exactly the same kind of particles (later known as K mesons), but in a weak interaction environment However, their motion patterns are not necessarily exactly the same.

To put it simply, if these two identical particles look at each other in the mirror, their decay methods are actually different inside the mirror and outside the mirror.

In scientific language, "θ-τ" particles are parity-nonconserving under weak interactions.

At the beginning of the discovery, the "θ-τ" particle was only regarded as a special exception. People were still unwilling to give up the conservation of parity in the overall microscopic particle world. Shortly thereafter, Wu Jianxiong, an experimental physicist of Chinese descent, used an ingenious method The experiment verified "parity is not conserved".

Since then, "parity non-conservation" has been truly recognized as a basic scientific principle of universal significance.

"Parity non-conservation" was a very important discovery that subverted the common understanding of scientists at the time.

Yang Zhenning won the Nobel Prize in Physics for this.

This is just the beginning.

With the development of quantum physics research, the physics community has discovered many asymmetries in the microscopic particle world.

"Parity is not conserved" has been widely recognized and promoted.

The symmetry of the physical laws of the particle world is slowly broken, and the world is essentially proven to be imperfect and flawed.

…

Gao Yihua's explanation was very detailed and in-depth. During the explanation process, he even began to discuss some classic types of particle asymmetry.

This content is definitely out of line, or even seriously out of line.

There is definitely no need to understand these contents at the undergraduate level. The substitution formulas used, including some particle science contents, are not understood by students, and very few can understand them in the classroom...

Or even say, almost none!

The students in the audience were all dizzy, but they could only continue to listen. Some who hoped to learn more tried their best to listen carefully. Many people simply looked at each other, with the same expression in their eyes. Meaning, "Teacher Gao, what are you talking about?"

"Is this what we need to learn?"

"It's not in the textbook!"

"It should be master's level knowledge, or even doctorate level knowledge, right?"

"..."

Zhao Yi could understand it completely, but he only used a small part of his brain power. While listening to what Gao Yihua said, most of his attention was focused on thinking.

Parity is not conserved!

This is a very interesting thing. It can be said to be one of the foundations of the current physics community’s understanding of the particle world.

Then the question comes——

“Why does parity nonconservation occur?”

"Mathematics is perfect; symmetry is perfect..."

"But prime numbers are also imperfect, have no rules, and cannot be symmetrical..."

"The particles in the microscopic world are irregular and imperfect. It's like they can't reach absolute zero..."

"Between the two..."

Zhao Yi suddenly opened his eyes wide. He thought of a connection, "If particles comply with parity conservation, then it is possible to reach absolute zero?"

"It's like calculating the boundaries of space. If a perfect closed loop can be achieved, it must be a closed space."

"If everything is perfect, absolute zero cannot exist..."

"So, this is the secret of particles?"

Zhao Yi felt inspired and frowned deeply.

In the deep thinking, time passed very quickly, and I didn't know when the bell rang for the end of get out of class.

Gao Yihua announced the end of get out of class early.

The students left one after another and the classroom became empty.

Gao Yihua did not leave.

He looked at Zhao Yi who was deep in thought in the back row with some depression, and felt that he should go over and say hello. He found that Zhao Yi kept the same movement, and he was a little worried about disturbing the other person.

He walked over anyway and sat on one side.

Zhao Yi came back to his senses, looked around and found no one. When he saw Gao Yihua, he nodded, "Teacher Gao."

Gao Yihua took a breath, forced a smile, and asked, "Why are you here?"

"I was thinking about a problem, so I wanted to give the class a try." Zhao Yi said frankly.

"Physics question?"

"right."

Gao Yihua felt a little more relaxed, "My classes are very simple."

Zhao Yi nodded subconsciously.

Gao Yihua felt even more worried and didn't know what to say. Fortunately, Zhao Yi took over and said, "But it helped me a lot. Teacher Gao, can you tell me about the problem of parity non-conservation again?" "

"ah?"

This request was really unexpected.

Gao Yihua was stunned for a moment, then said immediately, "Okay, okay... of course. Although I don't know how it will help you, but... okay, come with me... otherwise I'll stay here."

"Um."

Zhao Yi's expression was serious.

In this short period of time, Gao Yihua's mentality changed from depression and embarrassment to confusion, and then to expectation and joy.

He thought of something.

In May of this year, Zhao Yi was studying Goldbach's conjecture. When he was taking Hu Zhibin's advanced mathematics class, he suddenly asked Hu Zhibin to talk to him about divergence series problems. Zhao Yi said that he got inspiration from it, proving that Goldbach In one method of Bach's conjecture, series substitution is indeed used.

Then……

Hu Zhibin has been bragging everywhere, "Do you know? Zhao Yi's proof of Goldbach's conjecture? Zhao Yi got the inspiration in my advanced mathematics course at that time!"

"I clearly remember that after the course, he asked me to teach it again!"

"I knew at that time that he must have grasped something important! I am extremely convinced that he can complete the proof of Goldbach's conjecture!"

Gao Yihua's ears were on edge hearing this.

Although he kept complaining about "Hu Zhibin bragging" in his heart, he had to admit that the matter did have a certain degree of truth, because even Zhao Yi admitted that he got the inspiration to use the series substitution method in Hu Zhibin's course.

Gao Yihua was also a little envious. No matter how arrogant Hu Zhibin was, he did have the capital to brag.

It is a great thing to be connected with the proof of Goldbach's conjecture, even if it only helps the prover to get a little inspiration.

"Shit luck!"

Gao Yihua could only complain like this.

Now Zhao Yi suddenly mentioned that he was studying physics, and asked himself to explain the law of non-conservation of parity in detail...

That is to say...

"Is Zhao Yi going to achieve something huge again?"

"I will be the inspiration provider then!"

"From now on, I will mention it to the man named Hu ten, a hundred, or a thousand times, and I will keep saying it until he is sixty or seventy years old, until he is in the coffin before he dies..."

"If I can still move by then, I will go to his grave and say it again..."

Gao Yihua was very excited when he thought about it, and he became more involved in explaining to Zhao Yi.

soon.

End of explanation.

Zhao Yi thanked Gao Yihua and said it was very helpful to him, then walked out of the classroom and left.

Gao Yihua returned to the office excitedly and couldn't wait to tell others what happened. The news spread quickly.

"Have you heard? Zhao Yi is engaged in major research in physics!"

"What research?"

"I don't know. The School of Science said it seems that quantum physics, particles and the like are related to parity non-conservation."

"Gao Yihua explained the problem of parity non-conservation to Zhao Yi in detail!"

"What kind of research is it specifically? Physics, quantum... what can this mean..."

"Let's see what projects Zhao Yi has..."

Before Zhao Yi completed the proof of Goldbach's conjecture, he had a project on Goldbach's conjecture on hand.

You can see it now.

The projects of the professors in the school were announced to the public, and soon there was definite news. The physics project of Zhao Yi was...

“String theory, the boundaries of multidimensional space?”

"What is this? It sounds too high-end!"

"It should be superstring theory!"

"Is Zhao Yi going to prove string theory? This... is unlikely!"

"That's Zhao Yi, anything is possible!"

"..."

There was a discussion in the school.

Many professors in the School of Science are talking about this matter, and professors and teachers in other colleges are also talking about it.

Zhao Yi did not go to the staff dormitory to do research as he imagined, but continued his normal campus life.

National Day holiday.

Zhao Yi went back and stayed for three days, spending time with Lin Xiaoqing and having a smooth love life. Naturally, no further introduction was needed.

Later, I returned to the dormitory, and with Fan Lei and Li Renzhe who had not returned home, I fell into the game world in darkness.

If it were normal times, no one would care, because Zhao Yi has always been like this. His life is similar to that of ordinary students, but he is very focused when doing research.

It's different now.

Many people who follow Zhao Yi's life are worried, "What happened to Zhao Yi..."

"Playing around all day long is not doing your job!"

"He should be reminded to be more serious, but there are many geniuses who died because they lived too indulgently..."

"Zhao Yi is not worried about this. His achievements are already very high, but if he were more serious, he would definitely be even higher, right?"

"yes……"

Several professors from the School of Science also held a small meeting about this. They decided that if Zhao Yi continued to live like this, they would go over together to "teach" Zhao Yi and let him know that he should be more serious.

Zhao Yi continued to live like this.

In fact, it's not that he doesn't want to do research seriously, but what he studies doesn't just mean immersing yourself in calculations. Inspiration is a hundred times more important than seriousness.

That is not a mathematical problem that requires rigorous proof, but a theoretical physics problem that requires divergent imagination.

Zhao Yi tried to do research, but he didn't gain anything in one day.

Later, I simply stopped studying it.

He just lives a normal life and does whatever he wants. When his brain is active before going to bed, he can think about "asymmetrical and irregular" particle problems.

This kind of thinking has come a long way.

When he gets up every morning, he will carefully record the little things that come to his mind before going to bed, and summarize them together.

The National Day passed soon.

On the first day after the holiday, Zhao Yi missed class all morning and stayed in the dormitory writing papers all morning.

After the afternoon class ended, he returned to his dormitory and continued writing. He worked until one o'clock in the evening, then stretched out and took a long breath.

The main title of the paper is--

"Microworld: Particle Boundary Theory".

Zhao Yi continued to work hard on revisions until the next morning and submitted the paper to the internationally renowned magazine "Classical and Quantum Gravity".

Subsequently.

Just bury your head and fall asleep...