"Chaowen Dao" tells such a story:

At the moment when the world's largest particle accelerator, Albert Einstein's equator, was about to start exploring the grand unified model of the universe, the cosmic risk solver appeared and evaporated Einstein's equator! After telling scientists that the proof of the grand unified model will bring about the destruction of the universe, they did not tell the truth of the grand unified model because of the "knowledge sealing criterion"!

So scientists came up with a "best of both worlds" approach:

Tell them the ultimate mysteries of the universe and destroy them!

The risk-taker agreed! And a "Truth Altar" was created on the Gobi Desert, on which scientists got the truth they wanted to know, and then they were destroyed......

Of course, the large particle collider that does exist or will be built in society today is the LHC of CERN in Europe, and Einstein's equator is only a product of the imagination of the writer's mind. And even a large particle collider wouldn't have the devastating point of opening a space-time tunnel.

The principle of the Large Particle Collider is that the particles simulated by the collider collide with each other, resulting in a model similar to the Big Bang when the universe was first born. The greater the strength of the collider, the better the impact of the collision and the more particles can be observed.

"Chaowen Dao" is also the first novel that Junxin made with the help of Gu Mengxue. Gu Mengxue took it as the consideration of the publication of the first article, and Junxin also felt that it made sense, so Junxin did not ask about the war of words and endless bickering between the factions composed of literary circles and science fiction writers, he believed that Gu Mengxue had prepared a way to deal with all problems.

However, in response to the reaction of the scientific community, Junxin didn't want Gu Mengxue to get involved, so he planned to carry it on his own. After the first article published in the People's Liberation Army Daily about the opposition to science fiction by a scientific person, Junxin always paid attention to any point of view in the press and scientific circles that might cause controversy.

According to Junxin's recent reactions, in today's scientific community, because the country's science lags behind the West, it attaches great importance to practical technology, and the corresponding theoretical science, especially pure theoretical science, has much less resources than applied science, at least in the division of funds for each laboratory allocated by the state administration.

"Mengxue, you should concentrate on the literary world, I will start from the scientific community, although the insistence of scientists is stronger than those literati, but as long as there is enough evidence and results, then they can change their views on science fiction." Junxin looked out the window and said to himself alone.

From the very beginning, string theory was based on two-dimensional conformal field theory. This field theory is directly related to some important branches of algebraic geometry. The subsequent development of chord curling involves Calabi-Yau manifold and complex geometry, which is more related to algebraic geometry, and can even be said to have created a large field in algebraic geometry. Physicists were among the first to get into this field.

On Junxin's desk now is an all-English version of the proof of the Calabi-Chu manifold. This is the world's first Chinese mathematician to achieve a Fields Medal-level achievement. Professor Yau was awarded the 1982 Fields Medal for his outstanding achievement in the Calabi conjecture.

The development of superstring theory has undergone two revolutions, the first between 1984 and 1986, during which five models of string theory were born, and it is precisely because of these five models that superstring theory suddenly lost its interest in research, because there was no unified statement.

The second revolution began in 1995 at the University of Southern California's annual conference on string theory, where Edward Witten, the leader of superstring theory, placed five models under a unified model and mathematically proved that the five theoretical models were actually five different limits under the unified model. Since then, the second revolution in superstring theory has emerged. Superstring theory has quickly become the hottest theory in physics today, and it is pregnant with the possibility of a third or even a fourth revolution.

For this knowledge, Junxin is very well understood, and Junxin also knows very well that the event that caused superstring theory to be widely concerned was around 1982 when Schwartz and Green cooperated to solve the so-called "graviton" problem with a new model, although their model did not find a boson with spin of 2 and mass of 0, but it conformed to the theory of relativity, and since then, superstring theory has shocked the world.

Junxin walked to the door, closed the door, calmed down, and did not care about the raging flood outside, but began to calculate alone, using the Euler β function as a starting point, independently calculating and building his own new model.

The so-called superstring theory, that is, the supersymmetrical string theory, supersymmetry refers to the supersymmetry of the bosons of the particles that constitute the energy of matter and the fermions that constitute the mass of matter, on this basis, the independent unit of matter will no longer be the basic 0-dimensional particles, but will be the one-dimensional strings, because of its supersymmetry theory, so there is the name of superstring theory. The previous research was to study the relationship between the interaction forces between particles, and it was mainly the energy action of the boson at that time, so before the birth of superstring theory, this is also the reason why this model of string theory was later called boson string theory.

In the next period of time, Junxin once again stayed at home, and even Wei Donglai, who he brought with him, did their own research, and fortunately had the help of Professor Hu, so Junxin and Wei Donglai didn't have to worry about academic problems. However, the algebraic geometry that Junxin is teaching has to trouble Professor Hu to help with substitute teaching. But because Junxin has made a breakthrough in theoretical research, Professor Hu is also very willing to help substitute teaching, he was originally a student of the French Institute of Advanced Studies, and can be regarded as a disciple of Pope Grothendieck, although the main research direction in the end is not algebraic geometry, but his understanding of algebraic geometry is enough to serve as a general graduate student and doctoral supervisor.

In this way, through painstaking calculations, Junxin successfully completed the establishment of his model of the "graviton" problem in mid-June. Excited, Junxin ignored the fatigue of continuous work and ran to Professor Zhou's office with a smoke.

"The thesis is in physical theory?" Professor Zhou was very surprised by the research done by Junxin, and he thought that the research done by Junxin was still in mathematics.

"Yes, but like quasicrystals, a lot of mathematical methods are used to solve some problems in model building." Although Junxin is a little tired, he is in good spirits.

"What's the problem?" Professor Zhou was immediately interested.

"It's about the model of supersymmetric particles, and by the way, I borrowed Vignano's conclusion, which is the process of transforming the basic particles of the physical model from a point of 0 dimensions to a string of 1 dimension. ”

"Oh, let me see!" Professor Zhou's eyes lit up, and he eagerly took the paper in Junxin's hand, and the two of them didn't care about any etiquette, so they began to read it.