Great Country Academician

Chapter 931 CERN, a dead end~

"Speaking of which, what's going on with CRHPC recently?"

In the office, after the exchange of experimental results on the coupling constant of the unified theory of strong electricity, Xu Chuan felt relieved and asked casually.

In the past year, he really didn't go to Star City much.

The most recent time was when I returned to Jinling after the Chinese New Year last year, I went to CRHPC first to check out the situation.

But then again, if he doesn't go there to do experiments, it won't have much impact whether he sits in the CRHPC institution.

It can even be described as minimal.

After all, this is a large-scale scientific research organization with more than ten thousand people, and its core foundation is the board of directors and the engineers and engineering staff responsible for the operation of the Ring Super Particle Collider.

The former is responsible for the relevant scientific research work of the CRHPC institution, while the latter ensures the normal operation of the collider.

As for physicists and researchers.

To be honest, there is no scientific research project in the world that has more mobile personnel than the Large Strong Particle Collider.

Everyone there is just a passer-by, and it is even possible that if you meet him today, you will never see him again in the rest of your life.

All the scholars there come here for the scientific research projects or physical truths at hand.

They strive there with their own goals and dreams, and when the project is completed or shattered, they leave excited or frustrated.

This was the norm at CERN in the past and is also the norm at CRHPC today.

People come and go, and although everyone will miss this place, not many people will stay here.

On the other side of the phone, Lin Feng smiled and said: "It's very good. The CRHPC is currently operating normally. We are just waiting for the verification of the unified theory of strong electricity to be completed before the detection of dark matter and dark energy can be officially started."

Although the CRHPC institution has a large number of scientific research equipment, the only one that can penetrate into the most cutting-edge and microscopic world is the circular super particle collider.

Although there are many different types of detectors deployed on the collider's pipeline, it is impossible to meet all the needs, not even a drop in the bucket of the physics community.

After all, there are too many mysteries in the world of theoretical physics and particle physics. Not all of these mysteries can be detected, observed or solved by the Large Strong Particle Collider, but at least half of them can be solved by the collider. Analyze.

Just like the study of neutrinos, from a traditional physics point of view, neutrinos are extremely difficult to study through colliders.

Because they rarely interact with matter.

Generally speaking, this is done by using high-intensity neutrino sources and large detectors, or by observing neutrinos from the sun, cosmic ray interactions in the atmosphere, the interior of the Earth, supernovae, and other celestial bodies.

But in fact, the CRHPC Ring Super Particle Collider observed neutrinos produced by particle collisions in the collision experiment as early as the first half of last year.

The discovery was made by a forward search detector deployed in the front section of the kinetic energy trajectory tracking detector.

This discovery has changed the research method of neutrinos to a certain extent, making it a new way to study neutrinos through particle collider in the future.

It also caused quite a stir in the physics community at that time, so that many scholars or institutions in the field of neutrino research subsequently submitted neutrino experiments to CRHPC.

These include searches for various neutrinos such as sterile neutrinos, antineutrinos, dark neutrinos, etc. Many of them exist in theory or even fantasy.

However, the Circular Super Particle Collider does not have so many detectors for neutrino searches, and its collision detection experiments are all arranged in advance.

For example, the collision experiment arrangements of the CRHPC institution are all set. From verifying the unified theory of strong electricity to searching for the existence of dark matter/dark energy, these two super projects are the core projects of the main collider.

Unless a certain collision experiment can be completed in advance, it is possible to free up some collision resources.

"Oh, right."

Speaking of dark matter and dark energy, Lin Feng remembered another thing and quickly said: "Concerning the verification work of the strong electric coupling constant, CERN completely gave up at the end of last year."

"The current main collision resources there are now all focused on the detection of dark matter and dark energy, and there seems to have been some progress in the sterile neutrinos that you completed before."

Hearing the news, Xu Chuan raised his eyebrows and asked curiously: "Has there been some progress? Is there any public information on the results?"

He knew that CERN had completely abandoned the verification of coupling constants in the unified theory of strong electricity and turned to the detection of dark matter and dark energy.

Someone informed him at the end of last year.

This is normal. He is the author of the unified theory of strong electricity. Even if he does not personally verify the remaining predicted coupling constants, he can bring great help to Chinese scholars in verifying these constants.

In this regard, CERN initially wanted to rely on its solid foundation to compete with CRHPC.

After all, Western countries such as the United States and the European Union have great advantages in the development of basic science and the number of physicists.

But this kind of attempt has no advantage at all in the unified theory of strong electricity.

After all, although Xu Chuan rarely went there, every time he went there, he gave lectures related to the theory of strong-electric unification at the CRHPC.

These lectures are extremely valuable to the physicists in CRHPC. They are of great help to them in understanding the theory of strong-electric unification more deeply and finding the coupling constants predicted in the paper.

So after nearly a year of "forced" competition and only snatching a verification of the coupling constant from CRHPC, the CERN Council decisively gave up the verification of the theory of strong-electric unification, and then began the detection of dark matter and dark energy more than half a year ago.

It must be said that this choice is indeed correct.

Because in the theory of strong-electric unification, CERN is indeed impossible to compete with CRHPC.

But then again, in Xu Chuan's view, CERN's turning its target to dark matter and dark energy is also a dead end.

Or to put it another way, when CERN chose to go their separate ways under the intervention of the United States, CERN was actually destined to slowly die out.

The core reason is that the collision energy levels of the two are not at the same level at all.

Even the upgraded LH-LHC high-luminosity collider in CERN has an energy level of only 35Tev.

The maximum collision energy level of the CRHPC circular super-intense particle collider can reach 150Tev+, and even the normal collision energy level can reach 130Tev+.

The former is just a fraction of the latter.

In the microscopic world, the larger the energy level, the more things can be observed.

As for the subsequent things done by CERN, such as falsifying the collision data of the coupling constant of the strong electric symmetry breaking, or forcibly putting the honor of the strong electric unified theory on Deligne and Witten, it is just accelerating its own demise.

As for dark matter and dark energy.

As the real discoverer of dark matter and dark energy, Xu Chuan knows very well what is needed to extract the clues from the huge experimental data calculated in PB.

In addition to the support of many physicists and supercomputers, there is another more important factor.

That is, the mathematical analysis model!

In the previous life, he led the team to establish a detection model of inert neutrinos + dark matter, and it took a long time to complete this work.

Xu Chuan did not believe that CERN could find traces of dark matter within half a year without him.

However, at present, he was quite interested in what CERN had observed and what results it had achieved.

Could it be that under the pressure of him and CRHPC, CERN exploded its small universe?

PS: I am asking for monthly tickets for the second update. There are still some in the afternoon. It is the beginning of the month, and during the double period, I am begging for the monthly tickets in the hands of the big guys~(=ω｀=)