According to Hua Kejing's understanding, the current way to artificially create antimatter is to accelerate particles to hit a fixed target to produce antiparticles, and then decelerate to synthesize.

The energy required for this process is much greater than the energy emitted by annihilation, and the rate of antimatter generation is extremely low.

After technical simulations, it would take 30,000 years to make one gram of antimatter from existing accelerators on Earth!

For example, there was once a laboratory that used a magnetic field to constrain 38 antihydrogen atoms for about 0.2 seconds, and constrained the antihydrogen atoms for more than 1000 seconds 7 times.

Well, just this little thing, if you get together and throw it all out, you may not even be able to blow up a single germ, it's just stupid.

But the task of laughing is clear, at least to create an order of magnitude of Avogadro's antimatter.

What is Avogadro's constant?

?? Piece.

Moles.

Hua Kejing felt like he was back in the chemistry class at school.

So he's going to have to make a few grams, a few milligrams of antimatter.

And it had to be successfully designed with an antimatter bondage chamber.

By the way, what is the password of the computer that controls the antimatter tether module?

Hua Kejing touched his neck again.

A

B

C

D

E

F

G？

1

2

3

4

5

6

7？

……

So, how can we master the antimatter acquisition technology as soon as possible and complete the design of the antimatter binding chamber?

Therefore, first upgrading the [Scientific Research Institute] to level 7 is the inevitable choice of Huakejing.

Well, this is the suggestion given by Xiaole.

Because only the Faculty of Advanced Physical Sciences could possibly help him solve the difficult problem of antimatter research.

……

Back to Mission B005.

In order to build an experiment-class space station in Earth orbit, WORKCOSCOPE must complete at least 30 air-space missions within a year, or 2.5 launch targets per month.

Compared to the frequency of about 7 launches a month in Space X, it is nothing.

But this is really not easy for Muyu Aerospace, which is just starting out.

The first is the pressure of supply chain convergence.

Because Muyu Aerospace does not have its own industrial chain, Huake Mirror must be strongly supported by the Chinese aerospace industry and the national team.

The second is the pressure of capital investment.

If the cost of each launch is controlled at the level of 20 to 30 million, then the cost of 30 air-space transportation will reach the range of 600 to 900 million.

This is not a small amount, Hua Kejing is even draining the blood of Yijing Construction, and I am afraid that it will not be able to keep up with the consumption.

The Chongming Bird series engine joint venture with Huaxia Aerospace Science and Industry is not something that can be opened for a while.

Therefore, it is necessary to bring some "goods" to other customers at the time of each launch, not to mention profit, at least to dilute the cost.

After such a plan, Hua Kejing thought that it could still be completed with hard work.

Moreover, the expectation of the B005 mission is also in line with the goal of establishing necessary aerospace facilities between the moon and the earth orbit by 2030, improving the complete set of the Earth-Moon transportation system, and initially establishing a lunar base and the prototype of the Earth-Moon economic zone.

……

"Little music."

"I'm here."

Hua Kejing stood on the periphery of the [Academy of Science] and called for artificial intelligence.

"Let's get started."

"Consume 6,400 technology points, and the [Academy of Science] will be upgraded to level 7."

As soon as the faint voice fell, the space in front of him seemed to be distorted, and the building, which had originally belonged to the Faculty of Intermediate Physical Sciences, suddenly changed its appearance in a rotation.

Not only that, Hua Kejing suddenly discovered from God's perspective that with the entire [Scientific Research Institute] as the core, a ring-shaped device with a diameter of at least about 10 kilometers appeared strangely.

High-energy physics research facility, ring particle accelerator and collider!

The concept of a large hadron collider immediately came to Hua Kejing's mind.

It's the famous e

Hadron

Collider), a particle accelerator and collider of CERN near Geneva, Switzerland, is an important piece of equipment for international research in high-energy physics.

It is the world's largest and most powerful particle accelerator, built by 7,000 scientists and engineers from about 80 countries and built by 40 countries.

Like the LHC, the Annular Particle Acceleration Collider (RPC) that surrounds the entire area of the [Academy of Science] is buried 100 meters underground, but its annular tunnel is even longer than the LHC's 5 meters

km, with a total length of almost 32 km.

Hua Kejing called out the leader of the Faculty of Advanced Physical Sciences, a robot leader.

After questioning and introduction, he quickly learned the basics of the Ring Particle Acceleration Collider.

By design, when two elementary particle beams move in opposite directions in a circular tunnel, a strong electric field causes their energy to increase dramatically.

With each revolution of these particles, they gain more energy.

To keep such a high-energy particle beam running, a very, very strong magnetic field is needed that is generated by superconducting electromagnets that have cooled to near absolute zero.

After all, Hua Kejing is not a physics major, so he can only know a little about these technical things.

Even he wondered if the bigger the accelerator was, the better.

The robot leader told him that in terms of accelerators, large size corresponds to high energy levels.

High energy causes some unusual effects, and only in such extreme cases can some elementary phenomena or elementary particles (such as the Higgs boson) be observed.

Therefore, in the design of cyclotrons, it is true that the larger the accelerator, the greater the energy that the particles can get.

"Higgs boson...... What a lot of spice ......"

It's not that Hua Kejing hasn't heard of these strange particles, but every time he hears them, there are always strange things that come out.

Don't look at the robot leader on the other side, Mu Ne is silent, but at this moment, his face is gradually angry.

Obviously, this robot scientist is a serious "person", an upright "person", and he can't tolerate others driving a scientific car casually.

Hua Kejing held his forehead and shouted to the air.

"Little music."

"I'm here."

"Let's talk to you."

Hua Kejing patted the robot leader on the shoulder, bowed to him again, and then told the other party to go to the lounge on the second floor to rest first.

Essentially, chatting with the bot boss is chatting with Xiaole.

This chicken thief's artificial intelligence is purely doing things!

In response to Hua Kejing's request, the robot leader left sullenly, and Xiaole's voice sounded faintly: "There are indeed small accelerators that can accelerate particles to very high energy. For example, the laser wake field accelerator, the ultra-strong and ultrashort laser driving the wake field electron acceleration is a new electron acceleration mechanism. Compared with traditional RF accelerators, the acceleration gradient is improved by more than 3 orders of magnitude. If a laser is compared to a speedboat moving forward, the wake field it induces in the medium is like a splash at the stern of the boat, carrying charged particles along the way......"

"But there are still many problems in theory, and there are limitations in practical application?" Hua Kejing asked rhetorically.

"Yes, so large particle accelerators are still indispensable research equipment."

Xiaole said as he brought Hua Kejing to the virtual cosmic environment.

Unexpectedly, there is also a linear accelerator here.

In fact, a linear accelerator is a device that accelerates particles in a straight line, so the longer the linear accelerator is built, the more violent the particle collision will be.

Wellwood has heard that one of the longest modern buildings on Earth was built for particle accelerators.

PS: At present, the world's largest linear accelerator, SLAC, has a total length of 3.2 kilometers and a maximum energy of 50 GeV, accelerating per kilometer, but in order to achieve the maximum energy of 14 TeV of the LHC, the linear accelerator needs to build at least 900 kilometers.

But it was clear that the length range of the linear accelerator in front of him was already beyond the reach of his eyes, and he couldn't guess the length at all.

Then the question arises.

Why build an accelerator for a straight line?

When exactly will the ring accelerator lose to the linear accelerator?

Xiaole quickly gave a number, about 844,000km, with an energy ceiling of 13,200 TeV.

840,000 km!!

What are you kidding, it's no fun on Earth anyway.

But in space, 840,000 kilometers is nothing.

Not even the Lagrange point of the Earth Day has not yet arrived.

Hua Kejing remembered that he had heard of the circumsolar accelerator with a circumference of five billion kilometers in science fiction stories.

The asteroid belt that orbits the solar system,

Build a five-billion-kilometer-long atomic collider,

Emits two beams of particles in opposite directions.

The ultra-strong magnetic electric field is then used to deflect the particles and cause them to accelerate around the asteroid belt.

The accelerated particle beams pass through a series of bases, gradually bending into an orbit around the sun in the opposite direction, intersecting each other many times, getting faster and faster, and finally impacting.

And the impact erupted with powerful energy, enough to explode a small wormhole in the intertwined space-time.

Banana and Barra, such a description, is too sci-fi.

Xiaole then told him that if the ring accelerator LHC is amplified all the time, and finally reaches the level of Jupiter's orbital radius of 778 million kilometers around the sun, then it can be estimated that between each acceleration coil and the next acceleration coil, walking a straight line and walking an arc, when reaching the next coil, the error is at least 100,000 kilometers.

So how big is this error?

In other words, if the particle wants to go round, the size of the accelerator coil must reach 1/3 of the distance between the Earth and the Moon, which is simply a coil larger than Jupiter.

This is an accelerator coil!

Therefore, it is better to make it directly into a straight line, and it also saves a lot of troublesome things to make the particles bend.

So Hua Kejing knew that the linear accelerator in front of him had been cultivated directly from the earth to Pluto.

It's terrifying.

It is worthy of the great work of the Faculty of Advanced Physical Sciences, otherwise how dare you claim to be able to lead mankind into the interstellar age.

PS: In the cosmic vacuum environment, the accelerator basically does not need to consider the construction of pipelines, as long as an acceleration coil is built at a certain distance.

……

I salute every friend who has been with me all the way, thank you for your support!

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