Hand rubbing nuclear fusion live in the wilderness

Chapter 519 Discovery of Super Gravitons
In the simulation space, in the studio, Han Yuan stared at the white ceiling and thought about whether to increase the energy level of the particle collider under his feet.

But this is a very troublesome thing.

For large-scale strong particle accelerators, every time an energy level is raised, it is not only necessary to redesign and plan various parts of the accelerator.

There is also the length of the acceleration pipeline, which is also a very important part.

Why has the LHC of CERN been maintained and upgraded several times, but the collision energy level is still only increased from the initial 7Tev to 15Tev?

The reason is that its acceleration pipeline is too short.

There are actually many types of particle accelerators, such as electrostatic accelerators, linear accelerators, cyclotrons, and colliders.

But the principle of all accelerators is that charged particles are pushed and accelerated by energy in the pipeline, run to the end of the accelerator, and then collide, or work.

The LHC at CERN is a circular tunnel with a circumference of 27 kilometers.

Inside the accelerator, two streams of high-energy particles travel at nearly the speed of light before colliding with each other.

The two streams of particles travel in opposite directions through different beam tubes, both of which are in an ultra-high vacuum state.

But no matter what, its acceleration length is limited.

For example, the LHC has a circumference of 27 kilometers. Even if it is calculated according to the longest acceleration zone, the length of the acceleration pipeline suitable for each beam of high-energy particles is only 13.5 kilometers.

Moreover, for the 13.5 kilometers, many other devices need to be eliminated. In fact, the acceleration zone is shorter than this.

Think about it, how much energy is needed to accelerate a beam of high-energy particles to close to the speed of light in an area of ​​13.5 kilometers?

Even if the controllable nuclear fusion technology has emerged and can provide enough energy, the accelerating magnetic poles used to accelerate high-energy particle beams are not so powerful.

Not to mention the LHC of the European Atomic Energy Laboratory, even the superconducting magnetic poles deployed on the particle collider zero under his feet cannot accelerate a beam of high-energy particles to an energy level of 13.5Tev in an area of ​​100 kilometers the point.

The higher the energy level, the more advanced the acceleration magnetic pole and the long enough acceleration pipeline are required.

In science fiction movies, those colliders that frequently circle the entire planet are built so long because of this.

If South Korea wants to increase the collision energy level of the particle collider, it is necessary to build a larger and longer accelerator.

If you want to increase the collision energy level from three digits to four digits, the length of the acceleration pipeline needs to be increased from double digits to four digits in kilometers.

If the collision energy level is to be raised to the [-] TEV level, I am afraid that the length of the pipeline of the particle accelerator will really have to go around the planet.

Of course, this planet is roughly the size of the moon, and the circumference of the earth's equator is [-] kilometers. If a circle is built along the circumference of the earth, the energy level can be raised to a million level.

A particle collider of this energy level is not only used for scientific research and exploration of the universe, it is a veritable planetary cannon.

If you insist on finding a target for a collider of this level, no matter how many water droplets in the three-body, it will not be enough for it to blast.

A particle collider of this energy level is much easier to deal with energy shields, magnetic field shields, and deflection shields than other ordinary weapons of the same level.

Any shield that is hit by a particle beam carrying an ultra-high energy level will be directly pierced or overloaded.

"Maybe I was wrong."

Staring at the ceiling and thinking for a long time, Han Yuan blinked, retracted his gaze, and called Xiaoling out.

"Xiao Ling, when will the collider be able to perform the next collision?"

"Master, the next work of the collider will be in three days at the earliest, because of the high-intensity collision work in the previous month, there are many equipment and parts that need to be replaced and maintained."

When Xiao Ling's voice came, Han Yuan sighed, and then ordered:
"Well, we can only wait for another three days. For the next experiment, adjust the collision energy level to the Gev level, starting from 10 Tev and gradually increasing until the 20 Tev energy level."

"Received, Master."

Han Yuan probably felt that something went wrong in the process of searching for the super-graviton.

Perhaps he should try to lower the energy level of the collider and target it in the Gev interval, instead of blindly raising the energy level of the collider.

This was inspired by the energy dissipated by the Higgs field shock.

When the Higgs field is oscillating, the dissipated energy, or the energy transformed into dark matter and dark energy, is not the higher the energy level conversion efficiency, but the higher the conversion efficiency.

On the contrary, in a certain area, the lower the energy level, the higher its conversion efficiency, until it is finally fixed within a range.

From this, South Korean won a little inspiration.

Maybe he should try and search for it from the low energy level area.

Gravity is the most mysterious of the four fundamental forces, but if sorted by force, gravity is the weakest of the four fundamental forces.

Its strength is only 10/40^[-] of the strong nuclear force.

But in fact, gravity has more influence than the other three fundamental forces.

The sun emits gravity, so that other stars in the entire solar system move together without being out of touch.

A neutron star emits a gravitational force strong enough to push out all the outer electrons of an atom, exposing the inner nucleus.

Black holes also emit gravitational force, which is so strong that it can bend space-time, making it impossible for light to escape.

The attraction between any two objects or two particles related to their mass product is also the most common force in nature, referred to as gravity.

This is the definition of gravity in physics today.

But how to say about gravity, at present, the physics community does not have a standard answer.

In modern physics, (general relativity) thinks that universal gravitation is caused by the curvature of space-time, and the essence of gravity is the distortion of space-time.

In the modern theory of gravity, "gravity" is not a kind of "force", which is contradictory to everything we have learned in middle and high school.

The reason is that the specific source of gravity has never been found.

Of course, the specific source of gravity has nothing to do with the won.

He said that what he wants to do is to find the supergraviton that can move space.

In the past, when he built a 110Tev energy level particle collider, he fell into a blind spot.

The more massive an object, the stronger its gravitational pull.

Solar energy makes the earth revolve around him, and black holes can capture light. These are all manifestations.

So Han Yuan also thought that the higher the energy level, the greater the hope of discovering super gravitons.

However, he actually ignored a point. Although the sun and black holes have super gravitational force, it does not mean that small things have no gravitational force.

Perhaps the study of gravity should start from the subtle root, rather than blindly increasing the energy level of collisions.

Three days is not a long time, and the particle collider, which has undergone perfect maintenance, has started a new round of collision work.

This time the collision experiment will start from the energy level of 10Gev, and then increase the energy level all the way until it covers the area of ​​the 20Tev energy level.

In fact, most of the collision experiments in this range have been done by various countries.

However, judging from the data of various countries, no traces of supergravitons have been found.

Of course, this does not rule out that countries hide some data with obvious abnormalities for their own analysis.

In addition, there is another key point. Whether it is the collider of each country or the collider jointly built before, the observation equipment used is not very advanced.

Even though he has live broadcasted various detectors such as the super torus instrument, compact muon coil, quark particle detector, and cross-sectional elastic scattering detection before, it will not be a short time to replace the original observer. can be done.

So he needs to do another experiment for the range from 10Tev energy level to 20Tev energy level.

Under Xiao Ling's control, the 10Gev energy level collision experiment started soon.

The energy output from the controllable nuclear fusion reactor, after passing through the superconducting magnetic pole, quickly enriches the huge energy of the particle beam, raising it to the level of 100 billion electron volts.

Then, the particle beam carrying the energy of 100 billion electron volts rushes forward in the ultra-low temperature and high vacuum pipeline until it collides with the particles carrying the same energy on the other side.

There is no spark, no sound, only the phenomena observed by various detectors and the various data converted into them.

Looking at the energy spectrum image on the screen, Han Yuan's dark pupils showed disappointment again.

The collision experiment at the 10Gev energy level did not find the peak spectrum he needed.

Some are just things that have been repeatedly studied countless times by various countries.

But think about it, the energy level of Gev is the area where the most experiments are carried out by human beings.

All kinds of data inside, except for those that were not observed due to insufficient detector level, almost all others have been thoroughly studied.

He thought about finding a supergraviton at this energy level, but the probability is actually not high.

Even though the detector in his hand is more advanced than those of other countries, the probability of finding other missing phenomena from things that have been thoroughly studied by other countries is really not high.

However, Won did not give up, just continue to experiment.

Experiments in the low-energy level region have much lower losses to the particle collider than those in the high-energy level, and the maintenance and adjustment are faster.

So, the second and third experiments were quickly resumed.

It's still at the 10Gev energy level, and I still haven't found anything useful.

After the three 10Gev energy level collision experiments were completed, Xiao Ling began to arrange the next energy level collision experiment.

This is the collision experiment rule set by Korean Won. The collision experiment at each energy level must be carried out at least three times when collecting data.

If there is no new discovery in the data collected by the three colliding experiments, the next colliding experiment with kurtosis will be carried out.

If there are different places or novel phenomena, then repeat the collision experiment at this energy level to collect enough experimental data for analysis.

For collision experiments and data collection, the data collected by a single experiment is unstable, and some things are likely to be missed or not happened.

However, three or more experiments at each energy level can basically determine most of the data that can be collected at this energy level, and the probability of missing it is quite small.

10Gev energy level, 50Gev energy level, 100Gev energy level
Collision experiments have been going on, and after a whole week, the energy level of the collision has been raised from the initial 10Gev energy level to 700Gev.

It is only 1Gev away from the collision experiment at the 300Tev energy level, but from the collected data, Won still hasn't found what he wants.

Staring at the latest 800Gev energy level collision experiment data, Han Yuan sighed and turned off the display.

It seems that the particle collider must continue to be upgraded. His previous speculation based on the energy of the Higgs field shock and annihilation may be wrong.

The particles that can stir up spatial fluctuations are not in the low energy level area.

But until the end, no one knows the conclusion, and sometimes hope comes so quickly.

A few hours after he had the idea of ​​giving up, Xiao Ling, who was manipulating the particle collider to continue the collision experiment, received good news.

In the latest 1500Gev energy level, that is, the 1.5Tev energy level collision experiment, the data collected, there is an abnormal energy spectrum that seems to be in line with the supergraviton fluctuations.

After receiving this news, Han Yuan became very excited, and quickly turned on the projector and opened the experimental data of the 1500Gev energy level.

In an energy spectrum image specially marked by Xiaoling, he saw the abnormal peak.

"M(nK﹢1500)(Gev)"

"The occurrence index (Events) is in the abundance range of 30-35, and the highest abundance value is 34.78"

"The index of inelastic scattering of lepton-nucleon depth is 0.147 (±0.0039)."

"."

As the analytical data related to the energy spectrum image was continuously judged from Han Yuan's mouth, his whole body gradually became agitated, his voice and body trembled a little, but his eyes remained firm.

"The potential energy spectrum of the harmonic oscillator is (2n+L+3/2) Hw, N*(uds)1500us"

"This is it!"

"caught you."

In the excited voice, there was a slight tremor and countless excitement.

Han Yuan took a deep breath of air, forced himself to calm down a little, and said: "Xiao Ling, from the energy level of 1100Gev to the energy level of 9900Gev, repeat the collision experiment in this interval, I need more data. "

"Received, Master."

Xiao Ling's voice came, and he began to readjust the parameters of the collision experiment.

At the same time, the live broadcast room became lively.

[Is this found? 】

【Find that supergraviton? 】

[Judging from the anchor's tone, it seems that he has found a clue. 】

[1100Gev energy level to 9900Gev energy level, that is, 1.1Tev to 9.9Tev. 】

[Is there hope for faster-than-light flight? 】

[I don't know, anyway, I didn't understand any of the things the anchor said, can anyone who understands come out and explain?So what is the ejection index, what is the harmonic potential energy? 】

[Everyone is in nine-year compulsory education, if you don't understand, I will understand? 】

【不好意思，我是6+3+4+3+4。】

【这直播间里面别说6+3+4+3+4了，就是+30的都有。】

[Let's wait for the anchor, he probably won't be in the mood to tell us these things at this moment, we'll know when we're done. 】

(End of this chapter)