Free Web NovelChapter 511: Chapter 303 Smute: This is the Founding Theory of a School
The first floor office in the School of Sciences.
Zhao Yi is giving a brief explanation of his new research to several professors.
Several physics professors are very interested in his research, and some mathematics professors, such as Hu Zhibin and Zhou Li, also listen very carefully.
"My research is based on the existing system of physics, an imagination about the composition of particles, mainly describing the composition rules of particle boundary energy."
Zhao Yi started with a simple introduction.
He first mentioned the most basic two definitions, one is the particle in the title, and the other is the boundary.
Many things can be called particles, such as atoms, protons, electrons, photons, etc.
The definition of particles in particle theory is ’the smallest component’, which can be understood as photons, neutrinos, electrons, bosons, etc.
The other definition is ’boundary’.
The boundary definition of particles is very vague, and existing physics have no discussion on the composition of particles, and particles are certainly not like a glass ball, some are purely composed of energy.
The boundary definition in particle boundary theory is ’the part that reacts when the initial collision occurs’.
"If the Earth is taken as a collision target, the first reaction must be the very high atmospheric layer closest to the cosmic vacuum."
"In the case of particles, there may not necessarily be an outermost layer, and the part that reacts will be the internal energy composition."
"And the internal energy composition is also defined as the boundary for unified treatment, some particles may be purely composed of energy, so the definition of boundary includes the particles themselves."
Zhao Yi explained carefully, and everyone listened very carefully.
Then he entered the main topic, "I believe that the particle boundary energy composition rules determine the nature of the particle itself."
"The particle boundary energy distribution is irregular and not conserved.".
"If the particle boundary energy is forcibly balanced under certain circumstances, the boundary will dissipate."
During Zhao Yi’s explanation, he began to write and draw on the whiteboard, using mathematics to explain what he said.
This is very important.
If particle boundary energy is conserved, it will lead to dissipation, which is used to explain the principles of various physical and chemical reactions.
There is also evidence in physics research, such as when a beam of photons is projected onto a mirror, and the photons seem to be reflected, and at the moment of reflection, the particle boundary energy can be considered to be balanced, and the photons will definitely be dissipated.
And it is actually so.
The photons in the reflected light speed are all newly generated, and the photons contained in the original light beam have all dissipated.
This is precisely what Lisa Randall cannot accept.
Lisa Randall’s ’fifth dimension’ research believes that some particles do not dissipate, but enter the ’fifth dimension’.
If « Particle Boundary Theory » is accepted by more people, Lisa Randall’s research will obviously become a joke, and maybe someone will call her the ’female deceiver of new century theoretical physics’.
This is definitely intolerable.
Next, Zhao Yi began to briefly describe various particles, and the core point is, "The fundamental reason for the different particle properties is the different composition rules of boundary energy."
Some particles have extremely divergent boundary energies, such as photons, which show very significant characteristics.
Some particles, on the other hand, have very introverted boundary energy, making them difficult to detect, but relatively, they have strong penetrating power.
"To give an example, like small objects of the same mass, the higher the density, the smaller the volume, and the stronger the penetrating power, on the contrary, the porous distribution of objects, the penetrating power will be greatly weakened, and the characteristics will be very significant."
These are just simple discussions based on various examples.
That’s about it.
Zhao Yi did not continue to explain, as his research content itself is not much, and it is just a new theoretical framework and viewpoint.
In the office.
Several professors have fully understood, this is their first time hearing such an analysis, and they don’t know how to comment specifically.
Gao Yihua is relieved that he fully understood, and not like just now at the entrance of the building, completely clueless about its meaning.
He coughed lightly and gave a brief comment, "A very novel perspective!"
"Yes, it’s very novel!"
"It’s amazing!"
"It’s really refreshing, and if you think deeply, there are many things to study, such as combining with the four fundamental forces..."
Several physics professors said a lot, they all praised the theory, but in fact, Zhao Yi knew very well that what he said was not worth praising.
The reason they expressed their admiration was probably just a matter of courtesy, right?
If it’s just the above content, some laymen can imagine a whole new theory, but in fact, physics is as rigorous as mathematics, and the most basic thing is mathematical calculation.
His research is also to describe the particle boundary energy situation in terms of mathematics, not just to imagine a theory.
These mathematical calculations, representations, and frameworks are the core content of the research.
On the basis of existing quantum physics research, his boundary mathematical framework is almost perfect, capable of explaining many things, and the content is also very obscure.
No need to explain it in detail since it is difficult to understand.
"Let’s wait until the paper is published." Zhao Yi thought seriously, never considering the possibility of his paper not being published.
Although he had not published high-end physics papers before, Zhao Yi was confident that the mathematical calculations in the paper met the publication standards of top journals.
If "Classics and Quantum Gravity>" were to be rejected, he would simply submit it to a top math journal. With his reputation and the mathematical content of the paper, it would definitely be published.
After Zhao Yi left, the professors in the office discussed the paper.
"Zhao Yi’s research, how should I put it? It’s a good idea."
"Anyway, I can’t find any problems."
"His theory is very novel, but it’s too difficult to prove and almost impossible! Also, I feel that something is missing."
"That’s not all of it."
Zhou Li chimed in with a smile, "Don’t forget, mathematics is Zhao Yi’s forte, and there must be a lot of mathematical content in his research."
"That’s right!"
"It is not just a physical explanation."
"So that’s it!"
"Professor Zhou sees things more clearly!"
Without seeing the entire paper, discussing the research itself is meaningless, just like how the difference between ’possibly winning’ and ’definitely winning the grand prize’ is vast with the same lottery ticket.
Their discussion boiled down to researching the ’probability of winning,’ but perhaps the other party had already won, and probability no longer held any significance.
...
University of California, Berkeley.
The construction of the Berkeley Center for Cosmology had just begun.
The center was proposed by newly-crowned Nobel Prize-winning physicist and renowned Berkeley Branch astronomy professor George Smute. It received support from both the university and the world’s astronomical research organizations.
George Smute was in charge of the Center for Cosmology, and he had to pay attention to every aspect of the project.
Lately, the center had been busy connecting data with cooperating astronomical bases and organizing the collection of materials in the database. The workload was enough to cause a headache. Smute and his team had been working non-stop for a week. freeωebnovēl.c૦m
At eleven o’clock at night, Smute finally put down his work and felt a little more relaxed.
Now is the time for rest.
Instead of going straight to sleep, Smute returned to his office on the third floor, stood in front of the floor-to-ceiling windows, and looked at the scenery outside. The three-story C-shaped building, topped with a large signal receiver, cast a dimly lit view of the small river below in the lamplight. He could imagine how beautiful it would be during the day. freewebnσvel.cøm
This was the Center for Cosmology, his future workplace, and the culmination of his work.
Smute was very satisfied and no longer felt that his work was particularly tiring. He sat back down at his computer, ready to do more work.
At this time, Smute suddenly realized that he should check his email, as he hadn’t looked at it for a week.
Opening his inbox!
There were over ninety-nine new emails, most of them from students, and some from physicists. Most were consulting on physics problems or related to courses and admissions at the University of California, Berkeley Branch.
Smute glanced through them, deleting unimportant emails and forwarding simple but necessary ones to his assistant or colleagues.
As a Nobel Prize winner, he was very busy and couldn’t respond to every email.
These simple questions could be handled by his assistant or others.
"A submission to ’Classics and Quantum Gravity>’?"
Smute clicked on an email and became interested. He was a review consultant for "Classics and Quantum Gravity>", but he wouldn’t be responsible for reviewing manuscripts unless they were particularly profound. On average, he wouldn’t receive a submission every month, and sometimes, there wouldn’t be any submissions for several months in a row. Receiving a forwarded manuscript was quite interesting.
"Microcosm: Particle Boundary Theory?"
Smute quietly read the title and thought that the author was quite ambitious, as the paper was about describing particle energies.
This was not something that ordinary physicists would dare to venture into.
Normally, those who could touch on this level of content were top figures in the theoretical physics community.
Just like him, George Smute, the new Nobel Prize winner.
Smute smiled in self-satisfaction, immediately opened the author’s information, and briefly checked it. He was more interested in the author’s name than the content of the paper: "Zhao Yi?"
"Is it that young Chinese genius Zhao Yi? The discoverer of the new particle?"
"And the Goldbach Conjecture?"
After checking the information, Smute confirmed his judgment and suddenly felt a bit strange.
Zhao Yi was indeed recognized as having some achievements in quantum physics research because he had invented a new method for detecting anomalies in particle collisions and discovered a new particle suspected to be a Higgs particle.
But...
Almost no one in the world of physics acknowledged Zhao Yi’s research capability, because he used computer methods and his computer skills were widely recognized instead.
Moreover, Zhao Yi had no other achievements in the field of physics.
"How did he suddenly submit such a study?" Smute was a bit puzzled and decided to read the paper directly.
Just like Perlmutter, he couldn’t stop once he started reading.
