The internal acceptance report meeting of the 125Tev energy level collision experiment soon entered the question-and-answer session.
Regarding the last result of this sterile neutrino and dark matter particle detection experiment, as many people raised their hands to ask questions as crucian carp crossing the river.
This is the first time that the physics community has verified particles beyond the standard model, and it is also the first time that human civilization has explored the mysterious field of dark matter. No one will give up leaving their name and glory on this historical monument.
Collision experiments starting from the 35Tev energy level to the 100Tev energy level have all passed the acceptance report meeting and have their own ownership. However, 125Tev is the last one and the one that currently has no owner.
For Nanjing University and Shanghai Jiao Tong University, it is impossible to give up this hard-won opportunity easily.
On the lecture stage, Professor Zhao Hu answered every question calmly and strived to be perfect.
Time passed little by little, and the question-and-answer session lasted from 9:40 a.m. to 10:30 a.m., and it took nearly an hour for the fierce battle to stop.
In the audience, the acceptance team of the CRHPC institution in the front row exchanged opinions with each other. After confirming that there were no problems, they announced that the acceptance report of the 125 Tev energy level collision experiment jointly submitted by Nanda and Jiaotong University in Shanghai was successfully passed.
When the experimental data of ‘125 Tev Energy Level Sterile Neutrino Collision Experiment with Dark Matter’ was officially accepted by the CRHPC agency, thunderous applause rang out in the venue.
With applause, Xu Chuan stepped onto the stage, taking over from Professor Zhao Hu of Shanghai Jiaotong University.
After once again expressing his respect and gratitude to the two universities and related research institutions that had made this contribution as usual, he glanced around the thousands of audience members in the venue and raised the corner of his mouth.
.
Facing the pair's expectant or solemn gazes, he spoke slowly in a clear voice.
"Seven years ago, when I was still studying at Princeton University, I went to CERN for further study."
"During a collision experiment at the 13Tev energy level, I discovered some abnormal phenomena, and finally confirmed that in the vast universe and in the microscopic world, there is a kind of particle that we cannot see."
Without any extra words, Xu Chuan went directly to the topic and continued.
"This is a particle that exists in the 120um (rφ direction) beam z observation data of the antihelium-3 nucleus of the inner tracking system. It may be the legendary dark matter, or it may be something that we have not explored before.
particle."
"However, due to the limitations of the detection equipment and technology used at the time, we can only see part of the information about this particle, but cannot get a glimpse of its entire picture."
"Now, in the CRHPC institution, we have a more powerful particle collider. Starting from the energy level experiment of 13Tev, to 17Tev, then to 35Tev, and finally to 125Tev..."
"Step-by-step exploration and step-by-step experiments allowed us to finally grasp the full picture of this mysterious particle, and at the same time, we also gained more information about other particles similar to it."
At this point, Xu Chuan paused slightly and glanced across the audience, looking at the silent lecture hall and the countless people with their heads raised waiting for answers. He smiled with a sense of relief.
He continued in a tone of voice.
"It is an honor to stand here today, representing CRHPC and the theoretical physics community, to announce our latest research results to everyone."
Hearing Xu Chuan's words, the entire venue became noisy. The rustling sound of discussions could be heard from almost every place. Everyone's faces showed surprise and surprise, but there was a hint of excitement in their eyes.
An expectant look.
The acceptance report of the 125Tev energy level collision experiment is not the end of the sterile neutrino and dark matter particle detection experiments. Although today’s acceptance report will make everyone look forward to it, what everyone is looking forward to more is the person standing on the stage at this moment.
When will this scholar be able to give a complete report?
After all, the former is just a phased achievement, while the latter is the real breakthrough.
However, even so, most people have probably never thought that the person in front of them can conduct this report at today's acceptance report meeting.
After all, even sorting out experimental data from these different energy level regions takes time.
What's more, what about particles that are beyond the standard model, such as sterile neutrinos and dark matter particles?
No matter how long it takes to verify them repeatedly, it is not an exaggeration.
Looking around the audience in the audience, Xu Chuan continued with a pleasant smile on his face.
"Seven years ago, I asked everyone a question at a periodic report meeting on sterile neutrinos: What is the biggest puzzle that human science has encountered so far when facing the vast universe?"
"And today, I can stand here and answer this answer!"
As he spoke, he turned to face the blackboard placed on the reporting table, picked up the marker from the pen basket, and wrote three large characters on it.
【Dark matter!】
"This is a kind of 'matter' that exists in the universe and is difficult to directly observe with current human scientific and technological means. It is the main component of the matter in the universe and constitutes a very small part of the currently visible celestial bodies and most of the invisible ones.
structure."
"For example, supermassive black holes in the centers of some galaxies, dark matter stars, some quasars, etc."
"I am not the first person to propose this concept. As early as 1922, Professor Kaptan proposed that invisible matter may exist around stars, affecting their motion and structure.
"In the following century, countless scholars in the field of physics tried to find this invisible matter that affects the structure of the universe and the operation of galaxies."
"For example, in 1933, the astrophysicist Zwicky used spectral redshift to measure the motion speed of each galaxy in the Coma galaxy cluster relative to the galaxy cluster."
"Using the virial force theorem, he found that the velocity dispersion of galaxies in the galaxy cluster is too high, and the gravitational force generated by the mass of the visible galaxies in the galaxy cluster alone cannot bind them to the galaxy cluster. Therefore, there should be a large number of galaxies in the galaxy cluster.
Dark matter has a mass at least a hundred times that of visible galaxies."
"Or maybe in 1959, two professors, Kane and Walter, studied the relative motion between the Andromeda Nebula and the Milky Way, which are attracted to each other. Through the speed at which they approach each other and the distance between them, they deduced that we humans are in the
Dark matter in the Milky Way galaxy cluster is about ten times more massive than visible matter, etc.”
“Although there is so much evidence that there is a substance in the universe that we humans cannot see that is affecting the operation of the universe and the structure of galaxies, but unfortunately, before today, the particles that make up these invisible substances
Its nature is still not understood by people.”
"Even whether this mysterious particle actually exists is a difficult question to answer."
"After all, we cannot be sure whether there is really a stable particle in the universe that is uncharged, does not have strong interactions, and only has weak gravity and weak interactions."
"We can't see it directly through the collider or other equipment."
"A particle that is invisible and incomprehensible. For any civilization, whether it really exists is puzzling."
"But today, after experiencing countless collision experiments and sacrificing countless particles, we finally found one of these mysterious particles!"
"Sterty neutrinos!"
After a slight pause, Xu Chuan wrote the name on the blackboard and continued:
"According to the classification of void field and dark matter theory, it is a medium-mass dark matter particle that constitutes part of the structure of our universe and is widely distributed in every space and time."
"Even now, like a ghost, it passes through all of us."
"It does not have a strong interaction force or an electromagnetic interaction force. Its properties are highly stable and almost do not react with ordinary matter. But it will also interact through gravity and some forces or forces that we have not fully explored yet.
Form interacts with other matter."
"The most important thing is that it can release a large amount of dark energy by releasing a smaller mass of dark matter particles when it breaks the void."
"This is an important factor driving the expansion of our universe!"
The incredible sounds from the audience gradually spread, and many people's faces had a trace of surprise written on their faces that was stronger than before.
It can be said that everyone here today has seen the void field dark matter theory, but it does not include the paragraph I am reporting on.
Dark matter particles are related to dark energy, and dark energy is released when dark matter particles release a particle of smaller mass.
Although this explanation is indeed logical, it is also consistent with the phenomenon that the universe is still expanding or even accelerating from more than 10 billion years ago to the present.
But most of them didn't understand why Xu Chuan came to such a decisive conclusion.
After all, for current physics, although the existence of dark matter particles has been proven, how many forms it has and whether it is really related to dark energy is still a mystery.
Noticing the expressions on these people's faces, Xu Chuan smiled faintly, turned and walked to the blackboard behind him, picked up a marker and wrote on it:
【Ct】
"Ct particle, that is, sterile neutrino, this is a simple name I gave it. Of course, this is a temporary symbol for the convenience of description. Maybe I will modify it in the future."
"But that's not the most important thing right now."
"Importantly, through the collection of information and data from collision experiments from the 13Tev energy level to the 125Tev energy level, it is shown that Ct sterile neutrinos exist in collision experiments in a certain energy level section."
"Next, I will use collision experimental data from multiple energy levels such as 13Tev, 17Tev, 35Tev, 50Tev, etc. to explain how sterile neutrinos are transformed into other dark matter particles of the same energy level and mass level through the void breaking phenomenon.
, and fission into dark matter particles with smaller mass and lower energy levels.”
"I will write as detailed as possible, but I cannot guarantee that everyone present will fully understand my theory."
"After all it's impossible."
After finishing his words, Xu Chuan took a deep breath, turned to look at the blackboard, raised his right hand and wrote on the blackboard:
"The Ct sterile neutrino is a dark matter particle. Before we fully understand its properties, we need to examine whether it is stable on the time scale of the age of the universe. The Ct sterile neutrino fissions into smaller-mass particles through the void breaking effect.
mode, the corresponding lifespan can be written as...."
"Ct=2.88*102?{Ms/0.1KeV}ˉ?·{θ2/10ˉ?}ˉ1KeV...."
"Where Ms and θ are respectively the mass of the sterile neutrino and its mixing angle with the smaller dark matter particles formed by fission."
"We can see from this that the lifetime of Ct sterile neutrinos is much greater than the age of the universe, but this does not conform to my prediction in the void field·dark matter theory."
“So I introduced the void breaking effect in this process, which I call the
It will actively fission, releasing a large amount of dark energy and smaller dark matter particles."
"The expansion effect of the universe confirms from the side that massive dark matter particles are constantly fissioning. They release a large amount of dark energy in the process, which promotes the expansion of our universe."
"From this, we can imagine that in the early universe, massive dark matter particles and clumps or stars composed of massive dark matter particles were more numerous and denser than now."
"It is precisely because they continue to promote the development of space and time through the void breaking effect that they constitute our current universe, and they are still advancing outward."
"By observing sterile neutrino Ct particles in multiple energy level regions, we can confirm that the fission energy level region of Ct particle sterile neutrinos is Ct=XCt·13TeV2?|△m2/41|?XCt·
17TeV2."
"That is, in the energy level region from 13Tev to 17Tev, sterile neutrinos will naturally fission into a smaller mass dark matter particle through the void rupture effect, and release a large amount of energy."
"And the calculation formula for the dark energy it releases is..."
...
PS: It’s the end of the month. Please help me with my monthly votes. I’ll have another chapter later. I’ll finish writing this plot (??????)??