Xu Chuan didn't pay much attention to the CERN agency's detection of 'Kadra dark matter' after getting the acceptance experiment data.
Whether judging from the experimental data or the acceptance report meeting, the possibility that Kadra dark matter is dark matter is no longer high.
On the other hand, the CRHPC agency’s detection of dark matter is also about to begin.
Although Professor Pride Carter's acceptance report was declared a failure, the competition between CRHPC and CERN is far from over.
Dark matter will be the main battlefield where both sides will fight next.
In order to be the first to detect particles that truly exceed the standard model, whether it is improving the unobserved data of sterile neutrinos, or rediscovering a brand new dark matter particle...
It is conceivable that these two scientific research facilities, which were once the largest and are currently the largest in the history of human science, will continue to invest massive manpower and material resources to be the first to open this door that represents the new world.
For Xu Chuan, he does not need to arrange and handle these matters personally. There will naturally be people at the CRHPC organization to help with it.
As for himself, during the preparation time for the dark matter detection experiment, he had been sitting in his office perfecting the most important paper in his entire physics career.
That is, "Void Field Theory".
From the related concepts proposed a few years ago, to the "breaking effect theory of high-energy quark groups, gluons and void fields" that was dismantled later when verifying the unified theory of strong electricity.
Now, the void field theory has been gradually improved through his continuous thinking.
Although it will take some time before this paper is officially released to the public, it will at least be of great help in the exploration of dark matter.
Just like the Standard Model predicts fermions, bosons, the Higgs particle, W and Z bosons, the mass of fermions, etc.
Void field theory also contains many things, such as sterile neutrinos, dark matter particles, void fields, gravity and other things.
To include all these things in a set of theories requires not only an extremely in-depth understanding of cutting-edge physics, but also one's own understanding of the entire universe and advanced mathematical abilities.
Many people may find it strange that mathematics is needed to imagine and construct their own understanding and concepts of the universe. Isn't it just logical and reasonable?
But for science, especially for physics, a successful new theory must be mathematically self-consistent and able to explain experimental phenomena.
Mathematics provides the tools to accurately describe and predict natural phenomena, while physical laws often require mathematical formulas to be expressed.
Of course, this does not necessarily require that all physical theories must be explained through mathematics before they appear.
For physics, many theories first discover phenomena and then explain the physical phenomena through mathematics.
This situation is not rare.
Generally speaking, for the development of science, experimental phenomena > mathematical rigor > explaining experimental phenomena > clear physical meaning.
This is not to say that mathematics is more important than experiment, but that we can never explain all experimental phenomena at the same time.
Therefore, we need to lower the priority of experiments, first construct a rigorous theory that can explain some experimental phenomena, and then gradually expand the scope of the theory to include more and more phenomena.
In this process of generalization, sometimes the rigor is temporarily relaxed in order to explain some new phenomena, but the general trend is to explain new phenomena while ensuring rigor.
If you reverse this priority, there is an extreme case of ‘religion’.
The reason is very simple. For most religions, the internal theories of the religion can explain all phenomena, as long as there is God, and God created all things.
But it is obvious that it has no rigor and is contrary to science.
Of course, in addition to these, there are also some theories that are incomplete in mathematics but very successful in physics.
For example, Haag's theorem, no one has been able to construct a QFT field theory in 4 dimensions that meets the most basic requirements, but it is mathematics that is completely suitable for supersymmetry theory and plays an important role in supersymmetry theory.
Although so far, the super-stack theory has not been proven to be true.
But it is undeniable that this theory is relatively widely accepted by the physics community.
...
Just when Xu Chuan was preparing to separate out the predictions about dark matter from the void field theory and use it to guide the subsequent detection of sterile neutrinos and dark matter.
The CRHPC ring super particle collider under his feet is also preparing for the next experiment.
Although the controllable nuclear fusion reactor provides a steady stream of energy for the collider, every experiment of the Large Strong Particle Collider is not that simple.
For example, the pipes of the collider need to be maintained after every experiment, and the detectors that detect the experimental data generated after colliding with high-energy particles on mobile phones are even more important.
After all, the damage caused by the collision of high-energy particles is more powerful than the plasma in the controllable nuclear fusion reactor chamber.
Of course, talking about toxicity aside from the magnitude is just to throw away the gangsters.
But it is undeniable that the radiation damage caused by high-energy particle rays to materials is permanent.
The higher the energy level of the collision experiment, the greater the impact it will have on pipelines, detectors and other equipment, the longer it will take to inspect and maintain, and the higher the cost.
This is not only a problem on the CRHPC side, but also a problem on the CERN side.
...
In early June, after the hard work of thousands of engineers and staff, the CRHPC Ring Super Particle Collider was finally ready to start its next experiment.
In the conference room of the headquarters building, Director Tai Xuewen, the vice chairman of the CRHPC Institutional Council, completed the work arrangements and confirmed that further detection experiments of sterile neutrinos will be officially launched in three days.
This chapter is not finished yet, please click the next page to continue reading the exciting content! Since Xu Chuan first observed this particle beyond the standard model at the CERN institution in 2017, this will be the second large-scale observation in the physics community.
Turn on the Large Strong Particle Collider to explore its traces.
The goal this time is obviously to find the other half of the sterile neutrinos that is still in the fog, which also represents the half of the properties of dark matter.
After announcing the dissolution of the meeting, the scholars and engineers from various countries in the conference room also left the room one after another.
After clearing away the meeting reports on the table, Tai Xuewen called out to Lin Feng who was about to leave.
"Lin Feng, what have Academician Xu been doing these two days? He didn't even come to the launch meeting of the sterile neutrino collision experiment today?"
If he hadn't known that Xu Chuan was still with the CRHPC organization, Tai Xuewen would have almost thought that he had left.
Even today's important meeting such as the launch meeting of the sterile neutrino collision detection experiment was chaired by him on his behalf.
Although he has always been helping to handle the work of CRHPC, Xu Chuan is nominally the real chairman of the CRHPC Board of Directors.
Logically speaking, a meeting of this level should be chaired by him personally.
Upon hearing Tai Xuewen's inquiry, Lin Feng shook his head in confusion and said, "I don't know."
After a slight pause, he continued: "I only know that he said that he will do some research recently and asked me not to disturb him. As for what he is doing specifically, I really don't know."
Hearing this, Tai Xuewen rubbed his temples with a headache and said: "Let's go and take a look. The collision detection experiment of sterile neutrinos still needs his leadership. It cannot be like the previous verification work of the unified theory of strong electricity.
, be the hands-off shopkeeper."
Although for other countries, and even some scholars in China, it would definitely be a good thing if Xu Chuan did not participate in the sterile neutrino detection experiment.
After all, it can significantly reduce the pressure of competition.
Even though the Kadra dark matter detected by CERN is not a real dark matter particle, or has not been truly recognized by the physics community, the honorary title of being the first to detect dark matter is still waiting to be picked.
If Xu Chuan, the discoverer of sterile neutrinos, is missing, it will definitely be a good thing for other scholars who want to compete for this honor.
But for China, the situation is different.
It is really unjustifiable to allow scholars from other countries to take away the honor of discovering dark matter for the first time when the CRHPC ring super particle collider is all built in China.
At that time, I am afraid that neither the CRHPC organization nor the Chinese Society of Physics will be able to make reports to the higher authorities.
After all, the motherland invested more than 100 billion in real money to build the collider.
From the perspective of the CRHPC institution, Tai Xuewen still hopes that Xu Chuan can shoulder the responsibility of detecting dark matter particles for the first time, and he does not want this honor to fall into the hands of other countries.
.....
Office of the Chairman.
Following in the footsteps of Tai Xuewen, Lin Feng also came to Xu Chuan.
After knocking on the door, a voice of "please come in" soon came from inside.
The two opened the door and walked in, and saw Xu Chuan sitting behind the desk typing on the keyboard.
"Academician Xu, the sterile neutrino collision experiment in June has been arranged. This time we will launch three large detectors, the dark matter detector, the large conventional superconducting ring field detector and the kinetic energy trajectory tracking detector for the first time.
Capturing collision signals..."
In the office, Tai Xuewen put the meeting minutes in his hand on the table and gently pushed them over.
Stopping what he was doing, Xu Chuan touched the meeting minutes on the table, took out a signature pen after scanning it twice, signed his name at the end of the document and pushed it back.
"I understand, just carry out the experiment as planned."
"in addition...."
As he spoke, he bent down and opened the drawer, took out a document from it, and handed it over.
"Regarding the detection experiment of sterile neutrinos, you should find someone to build a mathematical model based on the above theory. Subsequent analysis work can be promoted through this model, and the problem should not be too big."
"What's this?"
With a slightly confused look on his face, Tai Xuewen picked up the documents handed over by Xu Chuan from his desk and started to read them.
Xu Chuan smiled and said: "About the prediction and analysis of some signal data of sterile neutrinos in high-energy level collision experiments."
"Building a mathematical model through the theories and data in this report should be able to help you save a lot of time and energy when analyzing collision data."
Upon hearing this, Tai Xuewen shifted his gaze from the document in his hand to Xu Chuan sitting opposite. He had some bad premonitions in his heart and couldn't help but ask.
"Are you not going to participate in the next sterile neutrino collision experiment?"
Judging from the current situation, isn't this exactly the same as the previous verification of the important prediction coupling constant in the unified theory of strong electricity? The person in front of me may be preparing to quit as a shopkeeper again.
Xu Chuan smiled and said: "Not really, it's just that I won't be involved in the specific work related to data analysis. You do this work, and I will help you with the final check."
It's not that he doesn't want to participate in the sterile neutrino detection experiment, but compared to the results that were confirmed in his previous life, he now has a more important job at hand that has entered a critical node.
Hearing this, Tai Xuewen suddenly felt a headache.
Sure enough, his hunch was right again, and the person in front of him was really not going to participate in the next detection experiment of sterile neutrinos.
Taking a deep breath, Tai Xuewen said helplessly: "But if you don't participate, we really don't know what to do here."
"This is currently the first particle that is most likely to be dark matter, and it is also the only particle that has been verified to be outside the standard model."
"Discovering its glory, I think we should do our best to stay in the CRHPC institution and stay in China."
Xu Chuan smiled and said, "Don't worry, there will be no problem."
After a slight pause, he continued: "And I am the one who took the lead in participating. In fact, it is similar to this arrangement. Don't worry, I won't leave here until the results of the sterile neutrino experiment come out."
"If you have any questions during the collision experiment, you can come to me at any time."
What he gave was the analytical mathematical model of the discovery of sterile neutrinos in his previous life. As long as this model is followed, there will be no mistakes in the analysis of the collision experimental data of sterile neutrinos.
And in fact, at his current level, it is no longer possible to personally lead a team to do various data analysis work like before.
Nowadays, what is more important is to move from the part to the whole, and control the overall process and some key links.
And these things are not irreplaceable for them, who have now trained a group of theoretical physics talents.
There are no problems with the verification of the predicted coupling constants of the unified theory of strong electricity.
Compared with the detection experiments of sterile neutrinos, the void field theory, which has now reached a critical node, is more worthy of his investment of time and energy.
If this theory is successfully completed, it may completely break the entire physics community's understanding of the universe and space-time.
And this is what Xu Chuan is looking forward to more.