From University Lecturer to Chief Academician

In the next few days, Wang Hao didn't go to the Science Foundation at all, and focused on the research of the newly established mission.

But he still went to a place--

Mizuki University.

Qiu Chengwen invited him to give a report on Goldbach's conjecture at Shuimu University, and the report is also planned.

The timing is just right.

The newly established task is a C-level research after all, so it is still difficult to complete it alone.

Wang Hao went to Shuimu University that day, and several people came to greet him at the door. They had met him two or three times, and they went in after being polite.

After he met Qiu Chengwen, he exchanged pleasantries, and the time was almost up.

The report on Goldbach's conjecture research sounds really influential. In fact, because he published two papers, the difficulty of the demonstration is not as high as imagined. With enough basic knowledge, you can understand it slowly up.

Shuimu University did not make much publicity about it. There were not many scholars who came to listen to the report, and more were doctoral students at the school, and some were even studying for masters.

Of course, it is also very difficult for them to understand everything.

Wang Hao didn't intend to explain it too carefully, because the proof is already there, and some detailed calculation derivation does not need to be explained in detail.

This time the report is aimed at computational analysis, which is the second proof paper published by the Journal of Mathematics.

The proof of the calculation analysis method is more direct than the coverage method, but the process of analysis and comparison is very brain-intensive, and it is not like the "smart thinking" of the coverage method.

So what he explained was still the overall content, and some detailed processes in the middle were directly brought over.

That part of the content can be understood if you think about it slowly.

"On Goldbach's conjecture, many mathematicians have taken a detour."

Wang Hao said, "The computational analysis method is a method that many mathematicians have thought about, but perhaps because the analysis in the middle is more complicated, they subconsciously feel that it is impossible to complete."

"The analysis process is indeed complex, but it is not impossible to do."

"Let's look at the difficulties. The first is the comparative content of the first part..."

Facing hundreds of people in the audience, Wang Hao explained seriously.

Wang Hao didn't pay much attention to the report of Goldbach's conjecture, because there were some top scholars in the audience who had already understood the proof process, so he didn't need to give a special explanation.

Therefore, he targets people who have difficulty in understanding the proof process.

Most of these people are PhD students, postgraduates, or some ordinary assistant professors. To explain the proof to them, you only need to explain the difficult points.

At the same time, Wang Hao is most concerned about the research progress.

Although the proof of Goldbach's conjecture has little relevance to new research tasks, it can also provide a certain amount of inspiration.

This is the most important.

[Task three, inspiration value +2. 】

[Task 3, inspiration value +4. 】

[Mission 3, inspiration value +1...]

Compared with the difficulty of the C-level task, the speed of increase in inspiration is not fast.

However, it is enough.

After finishing the report on Goldbach's conjecture, Wang Hao looked at the inspiration value again and found that it had reached '109'.

"Finally finished!"

He couldn't help but smile.

Enthusiastic applause broke out in the whole venue, and Wang Hao walked off the stage amidst the applause, and exchanged pleasantries with the people in the front row.

After listening to the whole explanation, Qiu Chengwen said in admiration, "Wang Hao, I found that your ability to explain is not weaker than your scientific research ability!"

"I have always felt that young math geniuses are not good at explaining, not good at teaching. Your course must be very popular, right?"

"It's okay~"

Wang Hao was a little embarrassed to be praised so much.

"It must be very good." Qiu Chengwen smiled, "There is an associate professor in our center who is less than 30 years old. His name is Xu Lei. You met him once. He is mainly engaged in the research of curves and topologies. He is very talented."

The 'very genius' commented by Qiu Chengwen is obviously not an ordinary genius.

He continued, "Xu Lei, it's okay to do research by yourself. He opened a class, and more than 100 students signed up. After a month, more than 90 students gave up."

"Students said that they didn't understand in class. I even talked to him about this matter. He didn't understand why the students just couldn't understand the simple logic."

He laughed himself out as he said that.

Wang Hao said, "This is also normal. It is difficult for ordinary people to understand geniuses, and it is also difficult for geniuses to understand ordinary people."

"That's why I said, you are very powerful." Qiu Chengwen said, "It's rare to be able to develop in both scientific research and teaching."

"Thanks."

Wang Hao didn't feel anything special, because his focus was on teaching.

What Qiu Chengwen said reminded him of his own courses, and he felt a little regretful, "I missed several classes when I came to the capital!"

"What a pity……"

...

Science Foundation.

This day is an official meeting to exchange gravity research.

In the morning, many people came, all of whom were related to the field of superconductivity. They all went to the conference room behind the main building.

Wang Hao, He Yi and others also passed directly.

When he reached the door, he saw a somewhat familiar face.

Xiang Qiansheng.

Xiang Qian was a little embarrassed when he saw Wang Hao. They only met once, and that was when Wang Hao scolded him out of the meeting room the last time he came to the capital.

I was so impressed that time!

Xiang Qiansheng still remembers it very clearly, but he didn't feel so angry when he saw Wang Hao again, because he knew that he had lost.

At that time, he just wanted to win a chance to compete for a project, and he did win it.

However, the research he led the team to do is still not as good as the physics laboratory.

What else is there to say?

Xiang Qiansheng sighed, walked over anyway, and stretched out his hand, "Professor Wang, you are here, your research is so good, I am convinced!"

The last sentence is said from the heart, and the emotion of sigh is undoubtedly revealed.

Wang Hao said with a smile, "I'm overwhelmed."

Xiang Qiansheng's expression was a bit decadent. What he lost was not just a study, but the future of his life.

As a member of the Superconducting Laboratory of the Academy of Sciences, he has received support from the laboratory, and the funding of over ten million is not just talking about it.

That's not a Science Foundation grant, it's a Superconductivity Laboratory grant.

However, leading the team to do research failed to meet expectations in the end, which means that everything has been done in vain. It is almost impossible to lead the team to do big projects later.

It is impossible for any personnel doing laboratory research to be separated from the support of the laboratory, such as large national projects, and only the top scientific research institutions can apply.

Xiang Qiansheng thought about it, then looked at Wang Hao and shook his head.

That's just for ordinary people. A super genius like Wang Hao doesn't need the platform of a big laboratory at all.

And I am just an ordinary person.

...

The meeting officially begins.

There were about 30 people who came to the meeting, half of whom were members of the Science Foundation.

Seven people came to the Basic Science Center of Capital University, which was the second largest number. There were also people from the Superconductivity Laboratory and the Physics Laboratory of the Academy of Sciences, and there were a few invited authority figures in the field of superconductivity. .

Meetings are divided into groups.

The basic science center is all sitting together.

Wang Chenglin and Jiang Jian were next to each other, and they were whispering, "Jiang Jian, what you said was very good that day. Our basic science center is here to compare."

"The primary and secondary projects must be clearly distinguished. Our direction is better, so naturally it is the main project."

Wang Chenglin said, "In the study of superconducting mechanism, they are indeed a new direction, but they are restricted by confidentiality. They cannot do research on exchange gravity. The main direction can only be comparative research on superconducting mechanism, which is the same as ours. "

"Our research is more professional."

"In this regard, it is beneficial for us to let them cooperate with the experiment."

Wang Chenglin also thought a lot about intervening in the exchange of gravity research. They are doing research on the mechanism of superconductivity. Specifically, they are studying the quantum state distribution characteristics of the superconducting state.

This is a study of 'condensed matter physics'.

Research in this direction requires continuous experiments to prepare high-quality Josephson junctions with atomically flat interfaces.

If there is an AC gravity experiment, it can assist in providing data as a reference, which may be very valuable for the study of constructing the quantum state wave function distribution.

While the two were talking, the meeting officially started.

First of all, Academician Wu Hui from the Office of Superconductivity made a research exposition on AC gravity, explained the AC gravity experiment, and explained the follow-up comparative experiments. At the same time, he also greatly praised the work of the physics laboratory.

Next, other professors from the superconducting laboratory stood up to summarize the discussion some time ago, and expressed a series of ideas and directions.

Then, the key point came.

As the two largest superconducting mechanism research institutions in China, the Basic Science Center of Capital University and the Superconducting Laboratory of the Academy of Sciences respectively explained the main direction of research and development and the recent progress.

The project of the Superconducting Laboratory of the Academy of Sciences has been going on for more than ten years. I will only briefly talk about the recent progress of the results.

The program at the Center for Basic Science at Capital University is new, but their results are remarkable.

For example, an ultra-thin high-quality Josephson junction with an atomically flat interface has been prepared, and the relative rotation angle of the superconducting layer has been precisely controlled.

At the same time, some inferences are also made.

Jiang Jianzuo reported, "We believe that the d-wave pairing theory does not apply to bismuth strontium calcium copper oxygen high-temperature superconducting systems..."

"We will extend the existing research to other cuprate high-temperature superconducting systems to study the applicability of the d-wave pairing theory."

"We are targeting Josephson coupling between two single-layer cuprate superconductors at the atomic limit..."

"..."

Jiang Jian's report lasted almost 20 minutes, and he kept talking about very professional content, including their research and development direction, progress, inferences, and even upcoming research.

Although the content of the explanation is very professional, all the experts present are experts in the field of superconductivity, and they can all understand that their research has made great progress, and the research on the main direction is indeed eye-catching.

This is like constructing the standard model of particles, adding a little bit of content, sooner or later it will take shape.

However, it is difficult to say the exact speed of progress, as similar research has physical limits.

Progress now does not mean that there will be progress in the future, nor does it mean that theoretical breakthroughs can be achieved after accumulation to a certain extent. When will it be able to support the application field, it seems a bit far away.

However, everyone present still spoke highly of the basic science center's research.

For international comparison, relevant research can only go so far.

Then it's the turn of the physics lab.

This meeting is also aimed at the research of communication gravity, and the physics laboratory is the protagonist.

First of all, He Yi stood up and made an explanation, explained the AC gravity experiment, explained the novelty of the experiment, and explained that the theoretical mechanism related to superconductivity can be studied and explored by studying the relationship between the AC gravity field and superconductivity.

After that, Wang Hao stood up. He looked at everyone present and said seriously, "We also focus on the superconducting mechanism, but the research method is completely new."

"Traditional research on the mechanism of superconductivity focuses on exploring the physical state of superconducting condensed matter to study the atomic fluctuations in the quantum state."

"This direction cannot be said to be wrong, but it is difficult to realize the leap from theory to application."

"The current theoretical research on superconductivity and applied research seem to be two completely different directions. Many applications do not need theoretical support at all."

Wang Hao walked out of his seat and said as he walked, "I read the latest research on superconducting materials, a new type of binary metal compound. How did this material be discovered? It was the research team that conducted various materials at ultra-low temperatures. From the experiment, my understanding should be correct, right?"

Everyone in the venue nodded.

Most new superconducting materials have been discovered in this way.

"So." Wang Hao said, "At this stage, it can be said that the theory in the field of superconductivity is still catching up with applications, and we don't even know when we will catch up, let alone surpass it."

"It cannot be said that studying the physical properties of superconducting condensed matter is wrong, but it is difficult to see the end. It involves quantum physics, just like studying the standard model of particles. This direction is very attractive, but gather all physicists, It’s hard to tell how perfect it is before it can be related to reality, not just limited to theoretical physics.”

Wang Hao walked to the big whiteboard on the side, picked up a pen, and continued, "So I want to use another method to study the superconducting mechanism, that is..."

"math!"

After hearing what Wang Hao said, the people in the meeting room looked at each other in blank dismay.

Condensed matter physics certainly includes mathematical content, and the elaboration of various quantum wave state analysis uses mathematical methods.

Wang Hao wrote a determinant on the blackboard without haste, and then explained, "The mathematics I am talking about is not a mathematical method, but a mathematical model for establishing a superconducting mechanism."

"Establish a mathematical model of superconductivity based on experimental data, and gradually improve this model in combination with AC gravity and other experiments."

"The specific structure is like this..."

Wang Hao started to write.

This is his research result. Based on the exchange of gravity experiment data, he constructed a mathematical model of the superconducting mechanism, that is, using mathematical methods to explain the relationship between various parameters.

If the mathematical model can be refined to a certain extent, it can understand the relationship between material properties, triggering mechanism of superconducting state and temperature.

Theoretically, many materials can be classified as 'superconducting materials', the difference is that the temperature to achieve the superconducting state is different, and some are even very close to absolute zero before the superconducting state can be triggered.

By using mathematical means to describe the relationship between material properties, superconducting state triggering mechanism and temperature, it is possible to rely on theory and material properties to judge the superconducting state temperature.

In this way, it is also possible to deduce what kind of material belongs to high-temperature superconductivity, and even to study what kind of material can realize 'room temperature superconductivity'.

Of course, the latter is difficult.

However, in the research direction of the theoretical mechanism of superconductivity, it is definitely feasible to establish a mathematical model, and Wang Hao is very firm on this point.

"Using mathematical means to describe the superconducting mechanism can directly understand the relationship between material properties and superconducting temperature in the form of numbers and symbols, which can be realized in the future and provide direct theoretical support for the application direction."

"I think this path is more valuable than studying the physical properties of superconducting condensed matter!"

After Wang Hao finished his explanation, he made a certain conclusion.

Everyone in the conference room stared blankly.

They followed Wang Hao's train of thought to understand it just now. Even though it was a bit obscure and difficult in the middle, they understood the general process.

Based on the experimental data of AC gravity, Wang Hao established a mathematical model that integrates complex parameters such as AC gravity field, material properties, and structure.

How complicated is this work?

Many people feel scalp numb when they think about it, but Wang Hao not only made it, but also made it logically, at least they couldn't find the mistake.

If we can continue to improve, it is obvious that we can slowly describe the relationship between complex parameters.

Simply put, it is like a multi-parameter word problem.

Parameters include x, y, z, a, b, d...

Each experiment can provide the relationship between parameters, and a corresponding equation can be established.

With the continuous experimentation, the equation system can be established. With enough equations, including all the parameters, it can be solved naturally.

Then, it's ok?

Sounds simple...a P!

Many people couldn't help but twitch their lips. Just listening to Wang Hao's explanation just now, they knew that 'establishing an equation' is a very complicated mathematical task, and there is a high probability that no one else can do it.

The only one who can do it is Wang Hao himself.

If Wang Hao's mathematical work just now is correct, it means that the direction he said is correct. It does sound much more relevant than the study of superconducting condensed matter physics and related applications.

This is a very good direction!

No one in the room dared to question Wang Hao's mathematics, so naturally no one questioned the direction he said.

The people at the venue reacted and applauded together.

Somewhat unexpectedly, Xiang Qiansheng was the first to express his opinion. He said in admiration, "This direction is unprecedented, and I think there is great hope!"

A professor next to him also said, "I think so too. A new direction, a new way of thinking, using mathematics to understand superconductivity, and directly explaining the relationship between each part, compared to studying condensed matter physics, studying a, b, c, d Bo, it has a lot to do with applications!"

Academician Wu Hui also applauded, "It's very novel and very interesting!"

"Wang Hao, as expected of a top international mathematician, let us refresh ourselves!"

Others followed suit.

At the same time, some people's moods were very complicated. Wang Chenglin frowned and looked at the content on the whiteboard, and then looked at Wang Hao surrounded by everyone in the room. He knew that his idea could not be realized.

He hoped that the physics laboratory would cooperate with the basic science center, but Wang Hao pointed out a new research direction. He also studied the theoretical mechanism of superconductivity, but directly skipped condensed matter physics.

Speaking in this direction has been recognized by many people.

Wang Chenglin felt that the direction Wang Hao mentioned had great potential, and he might really be able to jump from theory to application. He even thought, "Should we also find a mathematician to focus on research in this direction?"

But immediately gave up.

How can it be so easy to find top international mathematicians?

Even if one is barely dug out, it is impossible to have the level of Wang Hao, who can directly build a mathematical model based on a large amount of complicated experimental data, just think about how difficult it is.

The current situation has become that the physics laboratory has found a new direction, and it is also favored by many people in the venue.

what should they do

Take the initiative to cooperate with the research in the physics laboratory?

Do not make jokes!

Even if he was interested in Wang Hao's research direction, Wang Chenglin couldn't hold back his face at all. He looked at Jiang Jian again and suddenly became a little angry.

It's all this guy!

What did you say at that time, on behalf of the basic science center, actively cooperate with the physics laboratory? Can he represent the basic science center?

Can this kind of thing be said casually? !

When Wang Chenglin was thinking, he saw Wang Hao walking towards him.

He took the initiative to stand up and smiled reluctantly, "Professor Wang, congratulations, you have found a new direction in the research of superconducting mechanism. The future is limitless. I look forward to the day when you realize the superconducting field from theory to application."

"That's still far away!"

Wang Hao shook his head and said, "The direction is just the direction. It's hard to say when there will be results. We are just a single laboratory."

"Speaking of this, I just remembered. Professor Jiang said that you will conduct experiments in accordance with our research direction, and I will ask you in the future."

"..."

Jiang Jian was embarrassed.

Wang Chenglin could only wave his hands and say, "It's not the same direction, we are not in the same direction." He looked at Wu Hui and said, "Academician Wu, the main direction has been determined, and it has nothing to do with us from now on. gone."

Before Wu Hui could nod his head, he turned around and left the conference room.

Jiang Jian simply turned around and followed.

Wu Hui shook his head amusedly.

With doubts, Wang Hao turned his head and asked Wu Hui, "Did Jiang Jian say that he represented the Science Center at that time, was it for nothing?"

“Scholars in general place a lot of emphasis on saving face.”

Wu Hui laughed and said, "However, when scholars have become scoundrels, who can do anything to them? After this time, it is estimated that Wang Chenglin will not attend industry conferences for a long time."

"Ah~~"

"Makes sense."

The others beside him also laughed.

I see a lot of people talking about the water in the last chapter, maybe the author’s feeling is different from that of the readers, that chapter is really written very seriously, all are direct scene descriptions.

If you do the narrative routinely, it will be much easier to write~~~