Section 263
Javon Bonas narrowed his eyes and suddenly realized that this paper might not be that simple.
Then, he started to read.
Until the end, his face showed shock.
"Gift Crab...!"
"Is this true? Is this really related to X particles?"
"Unbelievable!"
He immediately shouted out of the office: "Dorothy!"
Soon, a young female assistant walked in and asked: "Professor Boras, what can I do?"
"Help me arrange the laboratory, I want to do an experiment!"
As an editor-in-chief, of course he also has his own laboratory.
Therefore, if he could do the experiment on such a very important result, he would do it himself.
The laboratory was quickly arranged, and after some experiments, he obtained the same results as the phenomenon explained in the paper.
"The speed of electrons has actually increased by more than ten times!"
He can also easily calculate that this is equivalent to a direct increase of 100 times in energy!
"This is simply..."
After marveling for an unknown amount of time, he seemed to be able to realize what kind of shock the physics world was going to have next.
…
In the end, it did not exceed his expectations.
In the next issue of "Science", this paper was on the cover as expected, and as expected, it directly detonated the entire physics community.
Everyone was shocked by this incredible discovery.
As the editor-in-chief, Javin Bonas also accepted interviews from the media after the latest issue of "Science" was released.
"Believe me, this is definitely one of the most important physical discoveries in the past 100 years. Can you imagine? Just by passing through a nanometer-level aperture, the speed of electrons increases by 10 times or more out of thin air! And The relationship between speed and kinetic energy is a square relationship, which means that the energy is directly increased by more than 100 times! "
"This is a miracle!"
"An absolute scientific miracle!"
"Can you imagine that after you pass through a tunnel, the money you have on you becomes 100 times what it was before?"
"Do you think this is a miracle?"
Although Bonas's metaphor sounded a bit strange, the reporter quickly understood its meaning.
Money increased 100 times out of thin air. This is not a miracle. What else is a miracle?
In addition to Bonas, even Edward Witten also accepted an interview and said: "It is very certain that this discovery is the most important discovery in physics!"
"Think about it, if we can stably reproduce this ten-fold speed increase and then use it in superconductors, calculated according to the I=neSv formula, the current will directly increase ten times!"
"As for why superconductors are necessary, it is because in resistive circuits, resistance will affect the actual speed of the current, and we must consider the heat generation, so the most ideal situation is to use this aperture acceleration effect in superconductors. good."
"To a certain extent, this can directly increase all the electricity we generate by a hundred times! Before nuclear fusion is realized, perhaps this will help mankind find another efficient and clean energy source. ”
"Why is it called clean energy? Think about it, using this effect can ensure that the pollution is reduced to one hundredth of the original level with the same energy output. Do you think this is a clean energy?"
The reporter asked in surprise: "Does this mean that this aperture acceleration effect can be regarded as an intermediate energy technology for the transition of human civilization to nuclear fusion civilization?"
However, upon hearing this question, Witten was somewhat silent, and did not say until a moment later: "To a certain extent, this is feasible, but to another extent, this technology may be more like The transitional technology for us to advance from nuclear fusion civilization to the next level of civilization.”
"Because this technology involves X particles, if we cannot understand X particles, it may be difficult for us to stably reproduce the aperture acceleration phenomenon. What's more, even if we understand X particles, there is still a considerable difficulty."
"Think about it, what is the diameter of an electron? It is generally considered a point particle and has no size in the classical sense. Experimentally, its interaction scale is about 10^18 meters or less, and then such a small one Things need to pass through a hole of more than 20 nanometers, which is almost as big for an electron as a cell is for the earth, and achieve an acceleration of more than 10 times. Can you imagine how difficult it is to reproduce this phenomenon stably? ?”
The reporter was stunned. It sounded really difficult.
But then, the reporter asked: "I heard that CERN is already preparing to try to study this project. It is even said that if there is a chance, it can also help the discovery of X particles and even strings in string theory?"
Hearing this question, Witten smiled and said: "There is indeed a chance. Although this phenomenon cannot be reproduced stably, if the positrons and negative electrons emitted by chance happen to be accelerated, and there are exactly two The collision of accelerated electrons and positrons does have a chance to help discover the X particle. "
"As for the discovery of strings..."
For this result, Witten shook his head and said, "I think it is unlikely, because to discover strings, collisions at the Planck energy level are required, which is about 10^15 times that of the Large Hadron Collider."
But then he smiled and said, "Of course, if supersymmetric particles can be discovered, it can also provide indirect proof for string theory."
"I am looking forward to the day when their experiment succeeds."
...
Chapter 228 Carbon Solution Diagram
As the aperture acceleration phenomenon becomes more and more popular in the academic community, many big names in the physics community have also expressed their opinions.
Whether it is Jarvan Bonas, the editor-in-chief of the Physics Department of Science, or Edward Witten, the founder of M theory.
Or George Parisi, who won the Nobel Prize in Physics in 2021 and had a lot of exchanges with Xiao Yi because of the superheavy W boson, and Frank Wilczek, who once discovered the asymptotic freedom in the theory of strong interactions.
It can be said that no one in the physics community will not be excited by this discovery.
Of course, they are basically theoretical physicists, and for experimental physicists, they are even more excited.
Just like CERN, they have begun to prepare for another maintenance and upgrade of the Large Hadron Collider, and have begun to prepare to release the liquid helium inside.
Every time the Large Hadron Collider is running, 120 tons of liquid helium needs to be added to cool the superconducting circuit to maintain its superconducting state, which can be said to be a huge cost.
In addition to this, they are also preparing to try to synthesize the 26nm pore size carbon nanoporous material described in the paper. According to the data in the paper, the probability of aperture acceleration in the 26nm pore size is greater, so in order to ensure that when their collider is started, the particles can have a greater probability of being accelerated, so it is necessary to synthesize carbon nanoporous materials with more 26nm pores.
Of course, in this way, they need to apply for relevant patents from Xiao Yi first.
Because only Xiao Yi's carbon nanoporous material patent can help to stably synthesize materials with this pore size.
Of course, Xiao Yi did not refuse their application, and was even willing to license it to them for free, with only two requirements. The first requirement was that they could only use the patent for research on this matter, and not for any other purpose, such as providing such materials to battery manufacturers. The second requirement was that after they successfully synthesized such materials, they needed to tell him the synthesis method and other means, and the series of patents generated by this also needed to be granted to him unconditionally.
CERN naturally agreed to these requirements.
After all, Xiao Yi was willing to license the patent to them for free, and these requirements were also very reasonable.
In this way, Xiao Yi also used a restricted patent license in exchange for the work of a bunch of top teams.
When the CERN team succeeded in the end, he could also further study the aperture acceleration phenomenon based on their results, especially the 26nm aperture, and why there is a greater probability of aperture acceleration effect.
Of course, when CERN will succeed is another matter.
Xiao Yi was not in a hurry about this. Anyway, the aperture acceleration effect could not help him study the first wall material of nuclear fusion. It could only be said that it provided some help for his understanding of carbon.
Of course, as the discoverers of this phenomenon, he and Liu Xiaodong also received a lot of attention.
This achievement, in terms of potential, is also worthy of a Nobel Prize.
However, since the fundamental principle of this phenomenon has not been understood, the Nobel Prize will definitely not be awarded directly to them.
If the final principle is explained by others, then in the end they may share the Nobel Prize with another person.
But no matter what, this achievement is indeed worthy of the Nobel Prize. Even when Yang Zhenning learned about this, he excitedly said: "This discovery is definitely the most important discovery in the physics community in the past 50 years! It is completely worthy of a Nobel Prize! The most important thing is that if this is a new fundamental force, then it means that humans will once again obtain a fundamental force that can be used in daily life in large quantities! Just like the electromagnetic interaction force."
Yang Lao's words are right on the point.
It is undoubtedly a very important thing that a new fundamental force can be used by humans just by letting electrons pass through nanometer-level apertures.
At present, the only fundamental force that humans can use on a large scale is the electromagnetic interaction force. As for weak force and strong force, they can only be observed in nuclear reactions and high-energy physics.
Among them, the reference to nuclear reactions directly brought humans weapons that can destroy the entire race and civilization.
As for gravity, it is even more invisible and intangible. Probably the only use for humans is to be able to stand stably on the ground without getting farther and farther away from the earth.
Therefore, the aperture acceleration phenomenon is now not only of significance to the physics community, but also of significance to the entire human race.
The major media outlets also began to give out various eye-catching headlines amid the commotion.
"The opportunity for humans to break out of the earth and enter the universe?" X particles, or X force? 》
"Power amplified 100 times out of thin air?" Magic or reality? The mysterious X particle, the miraculous X particle》
"The Fifth Basic Power!" The miraculous effect brought by X force! 》
"Aperture acceleration?" Energy amplified 100 times? Click on the link to take you into the past and present lives of X particles"
"shock! This new physical particle that has not yet been discovered can actually make humans..."
…
All kinds of news have kept the popularity of this matter high.
In the same way, Science Island Laboratory became popular again.
Such an important new discovery was born in their Science Island laboratory. It is difficult to think about it or not.
For a time, other laboratories around the world couldn't help but turn their attention to this laboratory, which had just been built less than two years ago.
In fact, this laboratory really only has one experimental building.
People have to sigh, so no matter how high-end the laboratory's specifications are, people still need to decide the value of the laboratory.
Science Island Laboratory owns Xiao Yi, which has made it one of the most important laboratories in the world.
No matter what, this aperture acceleration phenomenon can be regarded as making Science Island Laboratory enter the ranks of world-renowned laboratories. Although it is at the bottom of the ranking, it has already proved its value.