[1] THE SCHOLAR ADVANCED TECHNOLOGY SYSTEM (END)

[1] THE SCHOLAR ADVANCED TECHNOLOGY SYSTEM (END)
Chapter 190: Talk

Translator: Translated Henyee Editor: Translated Henyee


Massachusetts, America.


A plane landed at Boston International Airport.


Frank Wilczek just flew back to Boston from Switzerland. His students came to pick him up.


The old professor sat in the front seat. He put his laptop in his lap and connected it to a wireless network. He was planning on doing some work with this free time. Suddenly, he received an email from across the Pacific.


When he saw the name of the sender, he clicked on the email.


The PhD student in the driver's seat asked casually, "Professor, what's the situation at CERN?"


Frank looked at the email and replied casually, “Currently, the situation is still optimistic. The confidence level of three sigmas can be confirmed as a sign. CERN staff are examining the instrument and preparing for a press conference. I have to complete a theoretical thesis. Next month, I'll take you to Geneva ... Whahuh? ”


The PhD student noticed that the professor stopped talking, so he asked, "What's the matter?"


"Nothing ..." murmured Frank as he read the email and frowned. He suddenly shook his head and said, "This is an interesting point, but I disagree."


A young man from China wrote an email.


[Dear Professor Frank, I have some questions about your additional supersymmetry theory. According to Deligne's theorem on the tensor category, it is known that the category that satisfies a certain condition must be a category of representation of the supersymmetric group G so that we can say that supersymmetry is a generalization of field theory. But, in your complementary theory, it is assumed that there are extra dimensions beyond the representation of the plane of symmetry to explain the reason why supersymmetric particles are too large. Doesn't this contradict Deligne's tensor theorem? ”


Academic exchanges are different from office email. There was no need for additional courtesy, so Lu Zhou showed it as it was.


He believed that Frank would not be so stingy.


However, the old man's answer was also cruel ...


From the other side of the Pacific, after Lu Zhou edited the email and sent it to Frank Wilczek, he leaned back in his chair and stretched.


He would go out to eat when an email appeared in his mailbox.


Lu Zhou opened the email and was amazed.


F* ck, is he awake?


Switzerland is 6 hours behind, so that means 5 in the morning!


Lu Zhou had no idea that Frank had returned to MIT.


The answer in the email is simple, and especially to answer the question.


[Lu, I received your email. Also, regarding your doubts, I admire your knowledge of mathematical physics. But my advice is you should go and study Wigner's theorem in quantum mechanics. Then you will understand the theory of supersymmetry supplements, and will have no problem with the assumptions I make.]


Lu Zhou of course did not know about Wigner's theorem. This is the cornerstone of quantum mechanics.


This theorem describes symmetry principles in physical systems, such as how rotation, translation, or CPT alters the state of Hilbert's space.


Isn't that amazing?


Mathematics and physics are linked by theorems.


This property provides a theoretical foundation for the application of Deligne's theorem to the tensor category in physics.


Lu Zhou knew Professor Frank's intentions. He had no problem with the supersymmetric complement theory. It is just lacking in the beauty of mathematics.


For example, as Lu Zhou said, it is impossible to explain the rationality of this extra dimension by using Deligne's theorem in the tensor category.


Lu Zhou thought for a while then typed his thoughts on the keyboard.


[But don't you think that we can use a more mathematically sophisticated model to describe peaks in the 750 GeV energy zone? There is absolutely no need to introduce extra dimensions beyond the full symmetrical plane. I mean is maybe this is a particle we don't understand? Dark matter particles?]


Although to convince this old man, Lu Zhou said that the 750 GeV signal might come from supersymmetric particles, he was actually not obsessed with supersymmetric particles himself.


There may be a lot behind that characteristic peak. The universe is not built on a set of theories.


Lu Zhou felt like it was most likely dark matter particles.


After all, this signal was weak enough that without many collisions, this clue would not be found. Dark matter is difficult to observe because it barely interacts with other elementary particles, including photographs.


Lu Zhou pressed the answer button and did not want to go eat. He patiently waited in his chair.


If the old man saw his email now, he would immediately get a reply.


As expected, soon after, an email appeared.


[What you say is possible, but I don't think it is possible. I am convinced that CERN equipment is not sophisticated enough to detect dark matter. If the signals observed on the ATLAS and CMS detectors are dark in color, I am sure the characteristic peaks of both will not be too consistent. If you have any questions, you can consult Mr. Trump. Lynn Evans's. And as for my theory, I can also add additional explanations.


Lu Zhou read the email from top to bottom but he did not know how to reply. Suddenly, two more emails appeared.


[If there is an extra dimension of compaction, then each plane in a high-dimensional space corresponds to a normal plane in four-dimensional space, plus an infinite number of planes that are inversely proportional to the length of solidification. And the source of this field can be used as Fourier series of original film zero field in the compaction dimension!]


[Supersymmetric articles should also exist in this field. This relationship pairs supersymmetric particles with fermions. I think it makes sense, in theory. So according to this theory, we should be able to find supersymmetric particles under the energy signature under TeV, so you should have more confidence in the LHC.]


F* ck, this type of person is quite fast.


While the first email made him doubt CERN's equipment, the second email gave him confidence in the collider.


What the fuck?


Lu Zhou stared at the three emails for a long time while his hands remained static on the keyboard.


The old man was convinced by his own theory.


Lu Zhou fell silent and he did not know what to answer.