Reborn Tech Scholar

Chapter 418 Kabila - Qiu Chengtong Space

In July, the most lively thing is not the graduation ceremony of colleges and universities.

But after the announcement of the college entrance examination results, the top students in the college entrance examination in each province, as well as the volunteers, this is the hottest news.

From June to July, for two months, the biggest news hotspot has always been the topic related to the college entrance examination, whether it is the college entrance examination in June, or the follow-up status of the senior three candidates after the college entrance examination and the college entrance examination questions of various subjects, or 6 At the end of the month, the provinces announced the results of the college entrance examination one after another, and then filled in the volunteers for the college entrance examination in July.

Shuimu University has become the most popular university in the country for seven consecutive years, and most of the provincial champions choose Shuimu University, which has surpassed Yanda University by a large percentage.

Then, the newly established 22-school alliance and the remaining 21 universities are more attractive and competitive than before, and they have obtained a lot more high-quality students than in previous years. It can be said that they have borrowed the wind of the 22-school alliance Profit a lot.

Shuimu University in July also seemed a lot deserted.

Except that some people are starting to prepare for the upcoming freshman admission and military training, it's not a big deal.

After Qin Yuanqing participated in the three-day and two-night 22-school alliance conference in mid-July, he plunged into the research of superstring theory.

After all, he promised Weiteng to solve the basic problem this year, that is, why did he choose the "Kabila-Qiu Chengtong space" with an absolute value of Euler's number of 6?
If this problem is not solved, problems such as superstring theory and M theory are actually like castles in the air and tall buildings on the beach, which are not stable at all and not convincing.

Skeptics can keep staring at this question and ask researchers to explain why they chose the "Kabila-Qiu Chengtong space" whose absolute value of Euler's number is 6. As long as they can't explain it, the skeptics will not be convinced.

Among the many "Kabila-Qiu Chengtong spaces", why choose the "Kabila-Qiu Chengtong space" whose absolute value of Euler's number is 6?
This question was raised during the first revolution of superstring theory, and it was also pursued in the second revolution of superstring theory. Unfortunately, no one who studies superstring theory can give an explanation .

This is why, although string theory is a hot frontier in physics research, it has not been able to enter the mainstream of physics research!
That's because superstring theory looks perfect, but it cannot withstand scrutiny on the basis, and it has fatal injuries that cannot be resolved for a long time.

In order to solve this problem, Witten even consulted Yau Shing-Tung himself. After all, Yau Shing-Tung, who was only 29 years old, overcame the geometric problem "Kabila Conjecture", so there is "Kabila-Shing-Tung Yau Space".

The so-called Kabila-Qiu Chengtong space, referred to as 'Ka-Qiu' space, is a curled up high-dimensional space.It should be said that this six-dimensional space does not have a fixed model that can be displayed on a computer, and there is no one shape that all physicists agree with.

Exactly what it looks like, no one knows.

What is its size?Some people think that its radius is less than a billionth of a billionth of a meter, which is only one billionth of the radius of protons and neutrons.

Under such circumstances, the Kabila-Qiu Chengtong space itself is extremely complicated, and there are very few people who can understand it. Superstring theory also uses the "Kabila-Qiu Chengtong space" with an absolute value of Euler's number of 6.

This seems to be perfect, but in fact it is difficult to explain. If there is no way to explain, it means doubts!

Mathematics is rigorous, and the foundation of physics is also rigorous, because the foundation of physics is mathematics!
Over the years, scholars who study superstring theory have cooperated with many mathematicians, but they have not been able to solve this problem for decades.

Why did Wei Teng struggle for a while after receiving Qin Yuanqing's invitation, but still chose to accept Qin Yuanqing's invitation and join the Shuimu Institute for Advanced Study? It is because Wei Teng knows very well that Qin Yuanqing is the only one who can solve this problem in the world today.

If Qin Yuanqing can't solve it, then it is impossible for superstring theory to become a prominent theory of theoretical physics in this century, and he will not even want to win the Nobel Prize in Physics.

Qin Yuanqing is immersed in the study of superstring theory. Qiu Chengtong can't solve it, but Qin Yuanqing may not be able to solve it.

But it has been a headache for the world's top mathematicians for nearly half a century. Why choose the "Kabila-Qiu Chengtong space" with an absolute value of Euler's number of 6 is not so easy to solve. After all, this is even Qiu Chengtong. Even the founder of the discipline of geometric analysis is difficult to explain.

Sometimes Qin Yuanqing even thinks that superstring theory is just a beautiful flower by chance.

This is also why many scientists in the physics world, not least of whom are Nobel Prize winners in physics, dismiss string theory. What string theory is is delusional theory. A toy for scientists to idle their brains.

From a mathematical point of view, Qin Yuanqing kept trying to explain why he chose the "Kabila-Qiu Chengtong space" with an absolute value of Euler's number of 6, but the progress was very slow, and the speed was still above the Hodge conjecture. .

And Qin Yuanqing went to the Mizuki Institute of Advanced Mathematics more and more frequently. In the communication with Wei Teng and others, about string theory, superstring theory, and M theory, Wei Teng and others have sorted out a lot. Now in the process of communicating with Qin Yuanqing, in the collision of wisdom flames, many things that are considered perfect for string theory, superstring theory, and M theory have been revised and corrected one by one, and these research results have been published in The journal "Nature" was handed over to "Journal of Shuimu University (Natural Science Edition)" in China, and seven first-class papers emerged in one month.

It immediately caused a great shock in the world, because there have been no such outstanding results on string theory, superstring theory, and M theory for a long time.As the papers were published, physicists who studied superstring theory and M theory looked at the papers as if they were re-learning.

They found that after the research of the Mizuki Institute for Advanced Study, the superstring theory and M theory are more perfect and more perfect.

Knowing that Qin Yuanqing was solving the foundation of superstring theory and M theory from a mathematical point of view, the theoretical physics community turned their attention to Mizuki.

Since Qin Yuanqing solved the Yang-Mills theory and then proposed the unified theory of strong electricity, Shuimu has become another important sacred place of theoretical physics in the world. It has developed rapidly in recent years, and many top theoretical physicists have emerged. The physical achievements that make the world look up.

And everyone knows that the core of this is Qin Yuanqing, because although Mr. Yang has a very important status in the field of theoretical physics, Mr. Yang is old, and this era no longer belongs to him.This era belongs to Qin Yuanqing.

It is precisely because of this that in recent years, theoretical physicists have been visiting Mizuki as visiting scholars for further study and scholarship.

But now, Qin Yuanqing has really made a move on string theory, which cannot be ignored by the physics community.

Compared with the hustle and bustle of the physics world, this year's World Congress of Mathematicians was held in Rio, Brazil, but it seemed bleak. There were only more than 1000 mathematicians who attended. Huaxia didn't make it public, but other countries are not fools, so how could they not hear any news.Therefore, they all protect the top scientists in their own country and reduce going abroad as much as possible, especially going to the United States.

Liberal democracy, the lighthouse of mankind, not many people believe in it anymore.

Even the world's top mathematicians and physicists dare to do it, who would dare to believe this.

It is also based on these experiences that Huaxia’s One Belt One Road policy ushered in a turning point in 2018. Almost all countries along the route have joined the Belt and Road Initiative, but they have been fighting hard and unyielding. At the same time, they have also increased investment in the Belt and Road Initiative. .

The countries along the route have no money, nothing to worry about, Huaxia can lend you money first, just use iron ore and other production materials to sell to Huaxia.It's okay if you don't have money to develop, Huaxia can invest money in development first.

It was under such circumstances that some countries along the route began to build ports, railways, and highways one after another. China even took the initiative to help countries along the route improve their education, and was willing to allow elites from these countries to study in China on preferential terms.

The only highlight of this World Congress of Mathematicians is the awarding of the Fields Medal to Qin Yuanqing and Perelman in recognition of their contributions to the Riemann Hypothesis.At the same time, Schultz and other five mathematicians also won the award.

The World Congress of Mathematicians also called for Qin Yuanqing to hold an academic report on the proof of Hodge's conjecture, so as to speed up people's research on Hodge's conjecture papers, improve human intelligence, and promote the birth of new mathematics disciplines.

It is a pity that Qin Yuanqing expressed his appreciation on social media after knowing that the Alliance had awarded him the Fields Medal again, thanking the alliance judges for their recognition. At the same time, given that he has already won the Fields Medal, this is not conducive to the development of mathematics in the world. The purpose of the Fields Medal is to encourage young mathematicians to study hard and to honor their contributions.If I win the Fields Medal again, it will violate the original intention of the Fields Medal, and it will only hurt young mathematicians.So after thinking twice, he announced that he would withdraw from various mathematics awards in the future to give young people more opportunities.

Qin Yuanqing announced his withdrawal from the selection of the Fields Medal, which is not unexpected to the outside world, because Qin Yuanqing had already announced his withdrawal from the selection of the Nobel Prize, and it is normal to announce the selection of the Fields Medal now.

Others need the Fields Award to prove themselves, the Nobel Prize to prove themselves, Qin Yuanqing no longer needs it.

As the pinnacle of human beings, Qin Yuanqing no longer needs the Fields Award and the Nobel Prize to add honor and glory to himself, because there is no need.

Regarding the proof of Hodge's conjecture, Qin Yuanqing also gave a formal response on whether to hold an academic report meeting, saying that when Perelman proved the Poincaré conjecture, it took the mathematics community three years to demonstrate and finally formed a unified opinion.Then he will give the mathematics community 3 years. If the mathematics community cannot complete the argument in 6 years, then he will hold an academic report meeting.

(End of this chapter)