Section 265
So everyone's attention was shifted to the projection screen, and they began to judge these ghost films from a scientific perspective.
Time passed quietly.
...
Another half a month passed.
In Xiao Yi's office.
Looking at a newly built model on the draft paper, Xiao Yi showed a satisfied expression.
Based on the analysis and prediction under various theories, many mysteries of carbon have now been analyzed by him.
With this framework model, he can predict some undiscovered properties of carbon under various existing theoretical systems!
Including structures that can resist the impact of high-energy neutrons and high-temperature plasma flows!
"As for the name of this model..."
After a moment of thinking, Xiao Yi made a decision: "Let's call it the carbon solution diagram!"
Chapter 229 The involution of the three major academic circles
Picking up the draft paper in front of him, Xiao Yi browsed the model on it and smiled.
All this time has not been in vain.
As for why it is named the carbon solution diagram, it is mainly because Xiao Yi borrowed the idea of Feynman diagrams.
Feynman diagrams are a method created by the famous physicist Richard Feynman. They can use a very visual perspective to deal with the diagrams of various particle interactions in quantum fields.
After analyzing the carbon element, it is ultimately composed of atomic nuclei and extranuclear electrons. In essence, it is no different from any other element.
Just like different stars, they are all composed of stars and planets, but the masses of stars are different and the number of planets is also different.
Therefore, the idea of Feynman diagrams still plays a big role in it.
However, Feynman diagrams can deal with various particles, and carbon solution diagrams focus on carbon, so any research related to carbon can be analyzed more carefully.
At the same time, carbon solution diagrams are more compatible.
That is to say, various other analysis methods can also be integrated with carbon solution diagrams, whether it is quantum field theory, quantum chromodynamics theory, statistical mechanics, quantum Hodge theory, etc. in quantum mechanics, or various analysis methods in mathematics, etc., can be used without hindrance in carbon solution diagrams.
The same is true for some special theories such as BCS theory and Shaw superconductivity theory.
This also brings greater improvement to the effect of carbon decomposition diagram.
"Well... In this way, the use of computer analysis methods will bring a lot of effects, especially in terms of structure."
Xiao Yi touched his chin.
"In addition, not only carbon, but also various other elements can be analyzed by my analysis method to produce various hydrogen decomposition diagrams, oxygen decomposition diagrams, iron decomposition diagrams, etc."
And maybe, these decomposition diagrams of different elements can be combined with each other, so as to analyze compounds containing certain elements separately, such as water, and then analyze them by combining hydrogen decomposition diagrams and oxygen decomposition diagrams.
However, Xiao Yi does not have the spare time for this kind of repetitive work.
Publish the paper on carbon decomposition diagram first, and other people in the academic community will complete the rest of the work.
His pioneering paper is worth publishing in PRL or JACS, etc., and the second paper is also worth publishing in PRL and JACS. After all, the second paper is a verification of his pioneering paper, which is also very important.
The value of the papers on other elements published later will decrease in turn. However, even if they are not of the top journal level, they can be published in the second-top journals without any problems, and the minimum is a zone one.
"Tsk, if you think about it this way, I have brought dozens of top papers to the field of physical chemistry at once?"
Thinking of this, Xiao Yi raised his eyebrows.
Then he stopped talking nonsense and began to organize the paper.
There is not much content, and some analytical ideas are simply given, and the model can be directly put up in the end.
In the end, there are only 12 pages of content.
Of course, there are more references to be cited, after all, he used a lot of theories, so the number of references is naturally more.
All in all, it is about 20 pages.
Until the end, the paper was completed and started to be uploaded.
Although this paper is enough to be published in PRL or JACS, in the end he of course uploaded it directly to his personal website.
In short, unless there are other authors or papers that need to be promoted like the explosion trend theory, his papers will basically only be published on his personal website.
Of course, it is precisely because of these reasons that his personal website is becoming more and more famous now, and people who want to read his papers will go directly to his personal website to find them.
When others want to cite his papers, in addition to those that have been published, they basically directly cite his personal website link. If his personal website is also regarded as a journal, then the impact factor of his personal website is almost dozens.
Soon, the paper was uploaded.
"OK, the next thing to study is to use the carbon decomposition diagram to build the structure."
For this ultimate goal, Xiao Yi has long been eager to try.
The carbon decomposition diagram has been studied for so many months, isn't it for this matter!
No more nonsense, start to do it.
First of all, it should be made clear that the strength of the chemical bonds between atoms in materials that can resist high-energy neutrons and high-temperature plasma is very important.
And covalent bonds are undoubtedly the first choice.
This is why carbon composite materials can be one of the options, because the chemical bonds between carbon and carbon are covalent bonds.
Secondly, density is also very important. The denser the first wall material is, the stronger it is. Similarly, it can more effectively resist the impact of high-energy particles.
In addition, there is also the very important thermal conductivity. If a material can transfer heat in a very short time, it is naturally more suitable to be the first wall material.
In addition to these conditions, there are also some requirements including mechanical strength and chemical stability.
In short, the first wall material can definitely be regarded as one of the pinnacles of all materials.
After determining these important conditions, Xiao Yi began to design the structure.
With the carbon solution diagram, he can easily design various carbon structures that can exist in theory, and then use a computer to simulate the properties of carbon under this structure.
Of course, with his key killer weapon: material mastery, this substance can be easily synthesized.
In this way, time passed quietly.
…
On the other hand, after the paper was uploaded and appeared on his personal website, it was soon discovered by people as expected.
During this period, the discussion about the aperture acceleration phenomenon has not stopped at all, and there are still quite a lot of people discussing this matter.
Although the person who was pushed out for the interview was Liu Xiaodong, as a well-known key, Xiao Yi is of course still a hot figure that people pay attention to.
So, under various publicity and forwarding, his paper quickly spread in the academic community again.
And this time, it is not only the physics community that pays attention, but also the chemistry and materials communities have expressed their attention.
In fact, this paper, which has a total of 20 pages and only 12 pages of official content, looks a bit too amazing.
…
UK, Manchester University, Graphene Institute.
In an office, Andre Geim is reading a paper on his computer.
The Graphene Research Institute, as the name suggests, specializes in the study of graphene.
As a material with many magical properties, scientists have long discovered that graphene has many prospects for industrial applications.
Although it has been 20 years and it has not been used on a large scale, it is undeniable that it is indeed always a popular material at the forefront of the scientific community.
Otherwise, its discoverer would not have won the Nobel Prize in Physics.
Andre Geim is the discoverer of graphene.
At that time, he and his student Konstantin Novoselov used tape to stick on a piece of graphite and finally discovered such a magical material.
So sometimes, luck is still very important.
At this time, Andre Geim's mobile phone suddenly rang. It was a message sent on WhatsApp.
He took a look and saw that it was sent by his student Konstantin Novoselov.
Andre Geim raised his eyebrows and opened it. It was a PDF file.
Then Konstantin Novoselov sent another message: [Andre, take a look at this paper! Oh my God, I can't believe that carbon can be studied in this way! ]
Andre Geim couldn't help but become interested. What could make his student so excited?
He replied with a message: [Wait for me to see]
Then he downloaded the PDF file and clicked on it.
First, the title.
The title is very simple, it's called Carbon Analysis Diagram, [Analysis diagram of carbon].
Anyway, when Xiao Yi wrote this paper, he didn't think about publishing it, so of course the title was as simple as possible.
However, this made Andre Geim a little confused.
"What does this title mean? It means that it is an analysis diagram specifically for the element carbon?"