Many scientists also gradually calmed down, and soon the same thoughts as Lucas came to their minds.
That is to say, the supersymmetric properties mentioned by Atsushi Suzuki are probably a bit bluffing, and there is a high probability that there are some restrictions or defects.
as expected.
After introducing those properties.
Suzuki Atsushi just paused for a moment, then quickly changed the topic and said lightly:
"Of course, because strictly speaking, this particle is just a quasi-supersymmetric particle."
"For example, its telm value is at least about 10 to the power of negative 17. Decay is a weak interaction in physics."
"In addition, it is temporarily unable to use ordered Lie algebra to overcome the Coleman-No go theorem. It needs to introduce R parity conservation to comply with the characteristic symmetry."
"So it cannot be regarded as a supersymmetric particle in a broad sense, but I think its value is no less than a real supersymmetric particle."
"cut"
As soon as Suzuki Atsushi finished speaking.
The representative from the Cavendish Laboratory next to Lucas let out a disdainful snort.
"That's it?"
Lucas also shook his head slightly.
No wonder it was just passed through briefly.
in the current world of physics.
The most commonly used standard model of supersymmetric particles is called MSSM, which is minimal supersymmetric standard model.
The supersymmetric particles mentioned in general science originated here.
According to the framework requirements of MSSM.
The maximum telm value of a Higgs supersymmetric particle cannot exceed 10 to the power of negative 22, which is a full five orders of magnitude smaller than the power of negative 17 mentioned by Atsushi Suzuki.
To know.
The size of humans is 1,000 times that of ants, which means that the difference between humans and ants is only three orders of magnitude.
At the same time, it is combined with the mathematical expression of Suzuki Atsuto.
Isn't this the LSP particle on the baryonic acoustic scale?
Of course.
The LSP here does not refer to the old pervert readers who shout that I have a friend every day, but the Lightest Susy particles.
This kind of particle is exactly what it sounds like, and its characteristic is that it is very light.
For example, neutral neutrinos are a standard LSP.
Compared with the Higgs supersymmetric particle, the discovery of LSP is relatively "cheap".
Suzuki Atsushi obviously knew this very well, so after Xiao Xiao was possessed by a wave of UC party members, he changed the topic to the dark matter properties of particles:
"According to our color and taste analysis, this particle is composed of two quarks, similar in structure to mesons, and has a g factor of 2.0023."
"In addition, its low-energy excited state near the Fermi surface is very significant, and it can stably scatter an electron, with an energy label of 231.2344452."
"At the same time, the potential energy term of the Hamiltonian during the particle's creation and annihilation process is completely consistent with the Lagrangian function of the closed system, which is consistent with the relativistic effect."
Atsushi Suzuki introduced a lot of data in a eloquent manner, and this is solid information.
Therefore, both inside and outside the scene, all the audience listened very carefully, or pretended to listen very seriously.
More than ten minutes later.
Suzuki Atsushi coughed a few times, calmly took out a piece of paper, wiped the corners of his mouth, and asked the audience:
"Okay, everyone, these are the relevant properties of particles. Now is the question-and-answer session. If you have any questions, please feel free to ask them."
The words just fell.
A blond man in the audience raised his hand:
"Mr. Suzuki, I have a question."
Suzuki Atsushi nodded and made a gesture of invitation:
"But it doesn't hurt to ask."
The blond man adjusted his glasses, then held the corner of his ID and raised it:
"Mr. Suzuki, I am Benji Brandi from the IHES Research Institute. It is an honor to attend this press conference. The question I want to ask is."
"Does the Lagrangian function of a closed system you mentioned before also hold true in a steady external field?"
Hear this.
Suzuki Atsushi's brows suddenly furrowed slightly, he cursed secretly in his heart, and shook his head slightly:
"We're sorry, we haven't found a feasible option yet, but we are trying our best to try various possibilities."
"I am very confident in the capabilities of our institution, and perhaps in the near future, this question will be answered in the affirmative."
Benji Brandy curled her lips when she saw this, spread her hands, and sat back down.
At the press conference, there was a low discussion.
Even those social journalists who had previously pretended to understand but were at a loss in their minds and came here just for the news, could still see Suzuki's guilty conscience.
Actually.
The full name of the IHES institute represented by Benji Brandi is the famous Gallic Institute of Higher Sciences.
IHES has produced eight Fields Medal winners, and has an extremely rich foundation in mathematics.
The question Benji Brandi asked was worthy of some knowledge, and it immediately pointed out the weak point of Suzuki Atsushi's speaking skills.
Although Suzuki Atsushi's answer was a bit obscure, the meaning was actually the same:
The Lagrangian function of that particle does not hold in a steady external field.
The steady external field is one of the key systems in the theoretical field of dark matter.
Particles whose Lagrangian function does not hold in a steady external field obviously cannot be true cold dark matter.
In other words.
Benji Brandi's question immediately sealed the upper limit of this particle.
Although Suzuki Atsushi and the others did not intend to turn this particle into cold dark matter, their words were far from straightforward.
Think of this.
Atsushi Suzuki's eyes suddenly became less friendly when he looked at Benji Brandi.
Damn Europeans!
At this time, this young man came to attack him, an old man in his seventies. He really has no martial ethics.
However, considering the close friendship between IHES and CERN, it is not incomprehensible for the other party to come out to cause trouble at this time.
Behind the Bluetooth headphones in Benji Brandi's ears, there were a bunch of colleagues giving him advice.
Of course.
There are not many people like Benji Brandi, so soon, another representative asked a more normal question:
"Mr. Suzuki, you said that particles have relativistic effects, so what is their spin index?"
Upon seeing this, Suzuki Atsushi quickly retracted his thoughts and began to answer this new question seriously:
"Its spin index is ±1, which conforms to time reversal symmetry. The diagonal representation of the spin can be viewed on a big screen."
Then very quickly.
It was the second reporter again, and the third reporter spoke:
"Mr. Suzuki, what is the fermion magnetic moment of this particle?"
"Mr. Suzuki, how long is its lifespan?"
"Mr. Suzuki."
Facing the follow-up questions, Suzuki Atsushi answered them one by one.
Since many of the questioners were shills arranged in advance, Suzuki seemed to be very smooth and calm in the second half of the answer process.
at last.
A reporter from Huaxia Sichuan Province asked a very critical question in Japanese:
"Mr. Suzuki, does this particle have a name?"
The scene suddenly fell silent.
After hearing this, Atsushi Suzuki's expression became much more solemn.
I saw him holding his hands on the left and right sides of the podium, his body upright, and he looked extremely powerful:
"Name? The answer is of course yes. This is also one of the core themes of our press conference today. The name we gave this particle is"
"Jiao Zhu!"
"Jiao Zhu?"
Hear this noun translated simultaneously.
The European press conference tens of thousands of kilometers away.
Lucas and others were suddenly startled.
What does it mean?
Today's particles generally have names chosen from Greek letters, such as Λ, α, β, γ, δ, etc.
But what the hell is this Japanese word that Neon Man popped up today?
Just when Lucas and others were puzzled.
The team leader from Leiden Cryogenics Laboratory beside them suddenly turned his head and asked the person next to him:
"Researcher Hiratsuka, you are a neon person. You should know the meaning of the word Kakuzu, right? Can you explain it to us?"
Only then did Lucas and others notice that there happened to be a boy with an Asian face among the team members of the Leiden Cryogenic Laboratory.
Judging from his appearance and name, the other person should be a neon person, either pure blood or mixed blood.
be honest.
This situation is very common in European and American scientific research circles.
China, Neon, and India are basically the top three countries in Asia that export scientific research talents.
Hearing the question from his team leader, the man named Hiratsuka hurriedly shouted, and then quickly explained in English:
"Mr. Hal, you may not know that in the neon mythology, there are many theories about the formation process of the chaotic world."
"The source of everything recorded in the Kojiki is called the Lord of Heavenly Gods, also known as the God of Biel Tianjin."
"There are five such Tianjin gods, and they are all revered as the Gods of the Generation, that is, the Gods of the Five Pillars. They are hidden in Gaotianyuan."
"The scope of authority of this five-pillar god covers the entire universe, and it has a superior-subordinate relationship with the gods of Neon Continent."
"For example, the father god Izanagi in Neon mythology was sent by the Lord of Heaven to repair the Neon Continent, and then Amaterasu and so on came into being."
After speaking, Hiratsuka paused and looked at Lucas and others.
After everyone digested this information, he continued:
"After the Tianjin Gods, Gao Tianyuan gave birth to seven generations of twelve gods one after another. Neon Mythology calls them the Seven Generations of Gods."
"And the god Jiao Zhu is one of these twelve gods. He is the god who represents the roots of plants starting to sprout buds."
"In the myth, he caused the plants on the earth to send out buds, which eventually formed white stems to support the earth and became the center of the world."
After listening to the other party's introduction quietly, Lucas nodded gently:
"I see."
Hiratsuka explained in great detail. As a highly intelligent person, Lucas immediately understood the thoughts of the neon people.
Mentioned earlier.
Today, the proportion of visible matter in the universe is only a little over 4%, and the rest is dark matter and dark energy.
So from the observation results.
Dark matter is equivalent to the stems supporting the ‘earth’ of the universe.
Therefore, the name given to this particle of horn is tenable in a metaphorical sense.
but
Atsushi Suzuki or Kamiokane Laboratory used this name to call this warm dark matter, and it has another deeper meaning:
That is, dark matter in the future can develop and make breakthroughs, but it can only bear fruit within the framework or branches of the neon myth.
Because the first dark matter was discovered by Neon Man.
They want to become the cornerstones of the dark matter realm and make the entire land their slave.
even
One day, he will become the master of all physics or all sciences, that is.
Creator God!
In fact.
Suzuki Atsushi's idea was exactly what Lucas expected.
At this time, the little old man, who was already terminally ill, was holding his head proudly and looking down at the people in the audience with sharp eyes.
Up to now.
In the field of particle physics, Neon scientists have won 7 Nobel Prizes in Physics.
Since Hideki Yukawa won the Nobel Prize in Physics in 1949, neon people have almost been at odds with mesons and neutrinos.
Except for Shinichiro Tomonaga, who won the Nobel Prize in 1965 for his renormalization technology.
None of the Nobel Prizes that Neon people have won in the field of particle physics are special, they are all related to mesons and neutrinos.
But in the 1990s, Neon people suddenly discovered a problem:
Research on existing particles may win awards, but they do not gain the absolute right to define the field.
So in the era of the Great Depression when the economic bubble burst all over Neon, Neon people spent 100 million U.S. dollars to build the Kamokande detector.
Their purpose is to find dark matter, and neutrinos are just the manifestation of one direction.
In 2015, Kajita Takaaki won the Nobel Prize for his work on neutrino oscillations, and at the same time, neutrinos were excluded from the list of cold dark matter.
Atsushi Suzuki and others set their sights on warm dark matter.
Hard work pays off.
Eight full years later, they finally found this warm dark matter particle.
An opportunity to become a branch of the earth.
For Atsushi Suzuki personally, this is also his final step to becoming a god.
Think of this.
Suzuki Atsushi's left hand couldn't help but tremble slightly.
He is the leader of the keratin particle project. In terms of contribution, no one in the project team can match him.
After missing out on the Nobel Prize in 2015.
Suzuki Atsushi's greatest wish is to win a Nobel Prize before he dies.
According to the doctor's diagnosis, he can only live for another two years or three years at most with tuberculosis.
As a well-known war criminal and the great-nephew of Suzuki Akihisa, who killed 5,470 Chinese people during the invasion of China, Suzuki Atsuto is actually not afraid of death. (I feel that some things are really amazing. The reason why I chose Suzuki Atsuto as the buffoon is just because
He is the person in charge of the dark matter project of the Kamiokande detector, and he has also expressed disdain for China's neutrino research. As a result, when I went to Kamiokande's official website yesterday to continue searching for information, I suddenly discovered that his uncle is Suzuki Keihisa. I checked.
The year of birth and death is determined to be the same person, so it is really a bad bloodline.)
What he was afraid of was that he would still have regrets before he died.
And this time.
This is his last chance.
It is now early February, and there are still eight to nine months until the Nobel Prize is announced.
According to today's medical standards, even in the worst case scenario, his body should still be able to withstand that time.
So the only thing he has to worry about is
What is the level of the results at CERN?
If they are similar, maybe some things can be done.
Just like the flash of swords and shadows in 2020.
And at the same time as Suzuki Houto's mood spread.
Inside the distant CERN conference center.
Lucas also asked this question to his friend:
"Lars, can this round of results from CERN surpass those neon people?"
