I just want to be a quiet scholar

Chapter 411 The situation is gratifying

Chapter 411 The situation is gratifying
"I'm just communicating with you, Professor Lu, please give me a copy of these sample data, thank you."

After Shen Qi got the data, under the guidance of Professor Lu, he operated the radio telescope to capture the radio signals of NGC3115 and NGC4258 in the Milky Way.

The masses of NGC3115 and NGC4258 are respectively 20 billion times and 3600 million times that of the sun. They were first discovered by the Hubble Telescope and are famous black holes in the Milky Way.

When astronomers first come into contact with radio telescopes, they will use these two black holes to practice their hands.

Radio signals describe the fact that the human eye cannot see, and the black holes shown by synthetic aperture imaging are very different from the black holes in science fiction films.

Imaged from Earth as a dark cloud, NGC 4258 has a maser source whose orbital velocity is known as a function of the radius from the center of motion, and the disk surrounding the black hole is somewhat distorted.

"The black holes in sci-fi movies are all artistically processed, but the black holes in the eyes of astronomers are a bunch of data." Shen Qi finished the operation, said goodbye to Professor Lu, and returned to Yanda with the data.

With the data, you can write popular science articles.

"Since scientists proposed that the event horizon of a black hole is proportional to its entropy in the 20s, the research on black hole thermodynamics has made great progress, but the origin of black hole entropy is still unclear."

"For this reason, various methods for calculating the entropy of black holes have been proposed, such as the Brick-Wall method and the improved thin-layer model, string theory and single-loop quantum gravity theory."

"For the study of black hole entropy, the quantum effect of black holes must be taken into account, that is, Heisenberg's uncertainty principle must be considered when black holes absorb and radiate particles."

"The key issue is that the original Heisenberg uncertainty principle must be corrected in a strong gravitational field like a black hole. Based on a large amount of observational data, this paper makes the correction as follows..."

经过计算,沈奇推导出黑洞熵的一个修正式:SE=(1+2α^2lp^2β^2/l^2+8Q^β^2/πl^2)S+α^2lp^2π/4lns……

The final conclusion is that the black hole entropy correction formula in this paper is suitable for large-scale theories, which is consistent with many conclusions obtained by string theory.

Compared with GUP (Generalized Uncertainty Relation), the black hole entropy correction formula in this paper has a wider application range, and is valid for black holes with single horizon and non-extreme inner horizon, and can correct the black hole entropy of complex space-time, which provides us with Further understanding of the internal operating mechanism of black holes brings some references.

"It's quite popular, and most readers should be able to understand it." After Shen Qi finished writing this popular science article on black holes, he called Yang Dingtian to the director's office: "Dingtian, your undergraduate major is astronomy. Can you read this article I wrote?" Do you understand?"

Yang Dingtian watched it for half an hour, nodded and said, "I can understand everything."

"Okay, go get busy." Shen Qi had an idea in mind, and then revised this black hole article.

Yang Dingtian, a top student with an undergraduate major in astronomy, can only understand seven or eight, that's not enough, it's still too esoteric.

Shen Qi simplified the derivation and calculation process of mathematics and physics, added textual descriptions of popular science content, and showed Yang Dingtian again.

This time Yang Dingtian understood everything: "So Professor Shen supports string theory."

"Of course I support it. The master of string theory is my physics tutor."

"Wei Teng is your mentor?"

"Yes, so Wei Teng is your patriarch."

"This really excites me." Yang Dingtian found out that he was originally taught by a well-known family. Wei Teng and Shen Qi were more than one block better than his previous master's supervisor, Professor Chang.

Shen Qi submitted this article on black hole entropy to "Science", and it didn't take long for "Science" to publish this article.

System: "New achievement! The host publishes a physics paper on "Science", the basic award is 5 Xueba points, multiplied by the journal's IF value 41.346, and the final reward is 2067300 Xueba points. The balance is 29893918 Xueba points, Please confirm with the host."

Yes, this is very "Science". Shen Qi brushed up a "Science" paper in a short, flat and fast way, and gained more than 200 million Xueba points.

With persistent efforts, through different mathematical processing methods, Shen Qi completed another popular science article related to black holes.

"The formation of black hole accretion and jets is considered to be scale-invariant, and the fundamental relationship of black hole accretion can be expressed by an empirical formula composed of black hole mass and radio/X-ray luminosity."

“在南港理工大学天文观测站的支持下,通过大量观测数据,本文计算得到一个新的黑洞活动基本面关系表达式:dL(z)=c/H0(1+z)∫[ΩΛ+Ωm(1+z’)^3]^-1/2dz……”

"The research results further prove that the basic relational expression of black holes composed of X-ray/radio luminosity and mass is highly unified, which brings some new ideas for our follow-up research on black holes."

Shen Qi submitted his second black hole article to Science, less than a month after the first black hole article was published.

The editorial department of "Science" attached great importance to Shen Qi's consecutive submissions in a short period of time. They arranged for an experienced editor to contact Shen Qi directly. This editor was responsible for communicating with Shen Qi without doing anything.

The editor named Clayton got in touch with Shen Qi via email: "Professor Shen, from now on, if you submit an article to Science, you don't need to go through the submission system, just send it to me directly. In fact, you are already on "Science" Published two articles, one is an earthquake model, and the other is the black hole entropy that has just been included. I received another article from you yesterday, which is also related to black holes, so Professor Shen plans to write a black hole series ?”

Shen Qi replied: "Dear Mr. Clayton, there are two articles in my black hole series, and I will continue to write other series in the future to fulfill my duties as a popular science physicist. Thank you for your support."

A week later, the second article of Shen Qi's black hole series, "New Basic Expression of Black Hole Activity Surface", was published in Science.

Even if Shen Qi can edit it again, he can write at most two different popular science papers on the same version of data, and the two black hole articles will bring in a total of 4134600 Xueba points.

Shen Qi published "Science" articles in a short period of time, and all of them were related to astrophysics and cosmology. To be more specific, the two articles were related to black holes.

This has attracted the attention of the academic circles. What exactly does Shen Qi want to do?

The leader of the 973 project approached Shen Qi and asked, "Professor Shen, aren't you concentrating on solving the condensed matter physics project? Why are you so concerned about black holes recently?"

Shen Qi explained: "Leader, I have not stopped the condensed matter physics project of 973, and it is progressing smoothly. The two black hole articles I posted are of a popular science nature. I raise funds to get them done, and will not occupy any resources of the 973 project."

The leader just asked, but didn't say anything. After all, publishing "Science" articles in succession is a good scientific research achievement.

At the same time, Xiao Junlong's "Research on the Moran Set" was published in the "Journal of the London Mathematical Society", a relatively well-known journal in the mathematics field, second only to the four major journals.

In the first two quarters of this year, the Shen Qi Research Center for Mathematics and Physics performed well, with both mathematics and physics flourishing.

(End of this chapter)

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