Hand rubbing nuclear fusion live in the wilderness

Chapter 518 The Hidden Super Graviton

Driven by some caring people, soon, the live broadcast room was full of barrages asking what had been discovered in the previous three particle collision experiments.

The barrage swiped the screen, and Han Yuan naturally saw it.

The discovery of the particle collision experiment is not something that needs to be kept secret.Taking advantage of Xiaoling's time to adjust the experimental parameters, he briefly talked about his previous findings.

If he doesn't say these things, it won't be long before physicists from various countries will announce them.

[Dark matter?dark energy? 】

[Good guy, is the anchor's energy going to be upgraded?Is it time to make the leap from using electricity to using dark matter? 】

[Nearly 90% of the matter in the universe is dark matter. 】

[Upstairs you are mistaken, current scientific research has found that ordinary matter accounts for about 5% of the entire universe, dark matter accounts for 25%, and dark energy accounts for 70%! 】

[Is this why I gained two catties even though I only ate one catty of rice?The extra catty is dark matter (;ω;`)]

[Hahahahaha, tell me the truth, how many catties did you eat! 】

[It is said that dark matter does not reflect electromagnetic waves and cannot be directly observed?How did the broadcaster see it? 】

[The anchor didn't say that he saw dark matter. This is just a speculation. Whether it is true or not, I don't know yet. 】

[The Higgs particle can be created by shaking the Higgs field. If you can master the Higgs field, it will be amazing. 】

[I don’t think it’s necessarily dark matter, it’s more likely to be antimatter and antienergy. After they are created, they annihilate with positive matter and positive energy in an instant, otherwise it’s impossible to explain why they dissipate so quickly. 】

[The research on dark matter and antimatter can only be done by top scientists in the world, such as the barrage masters in station b (ov)ノ]

[I don't agree with your words, if Einstein worked hard for decades, he would be able to come to station b to post barrage]

[I think Einstein will be overwhelmed by the big bosses at station B when he comes, and he dare not reply when he is said by the big guys with their almighty eloquence. 】

Looking at the nonsense barrage, Han Yuan shook his head and fell into his own thoughts.

For the previous collision experiments, judging from the harvested data, the biggest problem and mystery is the observed energy annihilation phenomenon of the Higgs particle β boson before its formation.

At the beginning, he thought that the Higgs field was only related to the creation of the Higgs particle, but unexpectedly, the energy of annihilation seemed to involve the most mysterious substance in the universe.

Dark matter and dark energy.

For these two things, the current physics community still knows too little, even if it is won, it is not clear whether these two things really exist.

Although a large amount of research data shows that dark matter and dark energy are all over the universe, and even account for countless more than ordinary matter.

But in fact, so far, no one has really observed dark matter and dark energy.

These two kinds of things almost do not react with electromagnetic waves at all, do not participate in electromagnetic interactions, and even interact with photons must be very weak, so that human observation methods are completely ineffective for them.

However, from the theory and various observed cosmic phenomena, dark matter exists, and it participates in gravitational interactions and has mass, but the mass of a single dark matter particle has not yet been determined.

In addition, dark matter, like ordinary matter, can exist stably, and it is highly stable, at least on the basis of tens of billions of years.

Otherwise, in human theory, the universe could not be as it is now, with a stable environment, and it would have collapsed long ago.

But compared to current physics, dark matter particles do not belong to any known elementary particles.

This poses a considerable challenge to the 'current' extremely successful Standard Model of particle physics.

If one fails, the standard model becomes a wrong model.

If the standard model is wrong, and no epic physicist can erect a new building, human physics will fall into a dark cage.

Won also thought about whether to hide these discoveries for the time being.

After all, if it is directly announced, it will have a big impact on the physics world and even the entire human society.

But after thinking about it, he decided to speak out directly.

After all, with the development of human technology, this thing will be discovered sooner or later.

He just advanced the problem a little bit, what should come will come, why not take advantage of this system to see if it can trigger a task, and then solve it.

If a completely different physical model can be built in addition to the physical model of standard particles, including dark matter and dark energy, Won is still looking forward to it.

If this matter is told by him, then I look forward to it even more.

The 20Tev energy level collision experiment started soon with the adjustment of Xiao Zero.

The energy gushing out from the controllable nuclear fusion reactor continuously accelerates the two particles, and finally they meet at point X, colliding into a brilliant spark.

At that moment of intersection, the curve drawn on the energy spectrum image of the detector is extremely dazzling.

Han Yuan was staring at the display screen, refusing to look away for a moment, with excitement reflected in his pupils.

Although the data on the display is still unprocessed raw data, with his mathematical ability, it is enough to see some general data from the middle.

"I got you."

Looking directly at the energy spectrum image and data information on the display screen, Han Yuan's pupils contracted instantly, and then gradually enlarged.Those black pupils were already filled with excitement.

Although it is still impossible to confirm the specific proportion of the "abrupt" dissipated energy in the collision experiment at the 20Tev energy level.

But the data on the display has confirmed its proportion, which is higher than the previous 50Tev energy level collision experiment and the 30Tev energy level collision experiment.

This proved that his previous guess was correct.

In low-energy particle collision experiments, when the Higgs field oscillates, far more dark matter and dark energy are generated than in high-energy particle collision experiments.

If it can be confirmed that when the Higgs field is oscillating, these abruptly dissipated energy substances are transformed into dark matter and dark energy.

This means that as the temperature of the edge of the universe decreases, the speed of space expansion will also become faster and faster.

Because in the current physical theory, it is believed that the space expansion of the universe is related to dark matter and dark energy.

At present, according to research, the expansion speed at the edge of the universe has been increasing.

But whether this expansion speed will have a limit value is still unknown.

However, Won can find the limit of this dissipated energy by continuously reducing the energy level of the collision experiment.

Through this limit, to demonstrate the expansion limit of the expansion speed of the universe.

With the help of Xiao Ling, part of the data of this 20Tev energy level particle collision experiment came out soon.

The data that was prioritized once again demonstrated Won's speculation and mathematical intuition.

In this 20Tev energy level particle collision experiment, the energy dissipated after the Higgs field oscillated reached 70.00% of the total energy at [-].

Although it has increased by two points, it is enough to prove.

Of course, the data from one experiment is not enough to prove that this is entirely true.

But the Korean won can be effectively confirmed through multiple collision experiments.

10TeV energy level, conversion rate (dissipation rate) ratio: 84.78% for the first time, 84.82% for the second time, 84.66% for the third time
15TeV energy level, conversion rate (dissipation rate) ratio: 82.23% for the first time, 81.99% for the second time, 82.09% for the third time
20TeV energy level, conversion rate (dissipation rate) ratio: 75.23% for the first time, 75.82% for the second time, 75.65% for the third time
"."

100TeV energy level, conversion rate (dissipation rate) ratio: 56.99% for the first time, 54.07% for the second time, 56.06% for the third time
"."

Repeated particle collision experiments at different energy levels provided Han Yuan with enough data to finally confirm that when the Higgs field oscillates, the dark matter and dark energy generated at low energy levels are far more than those at high energy levels.

It is also confirmed at the same time that when the Higgs field vibrates, the efficiency of transforming into dark matter and dark energy has a limit value.

This limit value is almost around 80.00%.

That is to say, if each shock of the Higgs field can produce one hundred points of matter, then 85 points of the hundred points of matter will be transformed into the 'abrupt' dissipated energy, and transformed into dark matter and dark energy.

Of the remaining fifteen points, only a part in the middle has been transformed into normal matter and energy.

The detection of the limit value is of great significance to the research of astrophysics and high-energy physics.

If it can be confirmed that the dissipated energy is indeed transformed into dark matter and dark energy, then through this limit value, the final expansion speed of the space at the edge of the universe can be determined.

It can also be inferred how big the universe we are in today is.

Human beings have always been a mystery about the exact size of the universe.

The currently known diameter of more than 1000 billion light-years is only the diameter of the observable universe.

Beyond the observable universe, no one knows how much space there is in the universe.

And the approximate size of the universe can be calculated by the speed at which the Higgs field shocks are transformed into dark matter and dark energy.

Although this is complicated, it is also troublesome to calculate.

But the conversion rate of the Higgs field shock is like an anchor point, giving a point from which to start, and it will not be like before, bumping your head and having no thoughts.

Of course, some savages may ask, even if we know the exact size of the universe, so what?
For the current human beings, that is simply meaningless.

Humans haven't even gone out of the solar system, and they still think about going out of the universe?

If we follow this way of thinking, let alone the study of the universe, even the study of dark matter and dark energy is meaningless.

Because there is no dark matter and dark energy at all at present, and it is impossible to determine what use they are.

Both of these things are only weakly related to gravity.

Even if found, they cannot be used.

Is there any use for human beings that cannot be used?

According to this theory, it is indeed useless.

Many existing scientific theories, especially in mathematics and physics, study things that are useless in the eyes of ordinary people.

Because many of these things cannot be transformed into actual engineering tools and cannot be used by humans.

Just like the scientist who put forward various famous theories such as non-Abelian gauge field theory, law of parity violation in weak interaction, Yang-Baxter equation, Yang-Mills theory, etc. discredit.

Some ignorant people even think that these things can neither make atomic bombs nor missiles, nor can they promote the growth of crops and increase food production. Why should he come back?
But the development of science, if we follow this way of thinking, human beings are probably still in the stage of drinking blood.

In the simulated space, in the workshop, Han Yuan put the materials in his hand on the table.

In the past month or so, he has conducted no less than [-] high-energy particle collision experiments.

Numerous high-energy particle collision experiments have found the existence of the Higgs particle β boson, confirmed the Higgs field oscillation theory, and even found traces of dark matter and dark energy.

The gains, relatively speaking, are huge.

But for him, what he was really looking for was actually not found.

Han Yuan has not forgotten that his purpose of building a large-scale strong particle collider is to find the supergraviton that can provide theoretical support for faster-than-light flight technology.

However, more than a month has passed, and he has covered the energy level of the particle collider from 20Tev to 100Tev, but still has not found any trace of this supergraviton.

Right now, the particle collider at a depth of more than 110 meters under the feet is conducting the last experiment of this month. It is also the experiment with the highest energy level that this large and powerful particle collider can make. The [-]Tev energy level collision experiment.

However, Won does not hold out any hope that this experiment will find super gravitons.

The difference between the 110Tev energy level and the 100Tev energy level is only 10Tev energy level, and he has already conducted a 105Tev energy level collision experiment before, and found no clues.

There is a high probability that there is no hope for this 110Tev energy level collision experiment.

Without waiting for a long time, Xiao Ling passed on the data of the 110Tev energy level particle collision experiment.

After flipping through it, Han Yuan sighed.

As he expected, in the particle collision experiment at the 110Tev energy level, no trace of supergraviton was found.

As of the last experiment, no trace of this particle was found in the particle collision experiments from the 1Tev energy level to the 110Tev energy level.

This particle, which is suitable for the basic theory of superluminal flight, hides itself as if knowing that someone is looking for it.

"Next, what should I do?"

"Should I give up temporarily, or continue?"

Lying back on the rattan chair, Han Yuan stared at the white ceiling of the workshop with dull eyes.

If you want to continue, the energy level of the collision experiment will increase, and the large strong particle collider will need to be repaired.

Although he has already reserved a part of the space for performance expansion, in a short period of time, the performance of the collider at the bottom of his feet can be increased to 150Tev at most.

No matter how high it is, you have to build a new one.

(End of this chapter)