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[Our hadron collider magnet is 16 meters high, more than 10 meters long and wide, and weighs 1,920 tons. You see, we have built a giant hanger here, and we use 4 thick steel cables to lift this magnet, and with the help of a hydraulic top pump, the magnet is slowly lowered into the tunnel. It accelerates the particles in the tunnel, causing them to collide, creating a state similar to that of the trillionths of a second in the Big Bang. There are a total of 4 collision sites on the Hadron Collider, each equipped with a detector, one of which is a CMS (Compact μ Muon Solenoid) detector ......]

The Large Hadron Collider (LHC) has a very complex structure, with both acceleration equipment and detection mechanisms.

In fact, to put it simply, the Large Collider is to accelerate particles to collide with each other, simulating the Big Bang.

In turn, scientists conduct various studies by recording the data generated by collisions.

Of course, although it is relatively simple to say, because of its complex structure, even Mo Bai and a group of students have been studying in the laboratory for nearly half a month.

"Alright, classmates, are you ready?"

On the new day, Mo Bai called a group of students together early.

"Ready. ”

The students spoke in unison excitedly.

They know.

Today is destined to be a day that will go down in history.

Huaguo's Super Hadron Collider will complete its first experiment today.

"Teacher Mo Bai, everything is ready. ”

Chief Engineer Wang came to Mo Bai and said that everything was ready.

"Hmm. ”

Mo Bai nodded and looked around the entire control room.

At this time, all the staff were already sitting in front of the computer, monitoring everything in the whole experiment at all times.

And, of course, dozens of physicists stood aside, keeping a close eye on the experimental data.

"Let's go. ”

Taking three deep breaths, Mo Bai pressed a button.

A light suddenly appeared......

Mo Bai suddenly felt something like God created the world.

With a slight shake of his head, the Large Hadron Collider began to work.

Millions of particles are instantly emitted into a 30-kilometer-long tunnel.

In order to achieve the best results, the entire 30-kilometre corridor must be vacuumed.

Not only must it be a vacuum, but the temperature of the entire vacuum must be -273.15 degrees, which is absolute zero.

At the same time, the air pressure of the tunnel will suppress the standard atmospheric pressure of minus 13 of 10.

This pressure is 10 times lower than that on the Moon.

Millions of particles are moving faster and faster as the accelerator pushes them.

30 km/s.

300 km/s.

3000 kilometers per second.

Don't doubt it, it's the real speed.

In order for particle collisions to simulate billionths of a second in the Big Bang, the accelerator device had to push the speed of the particles to the speed of light.

That's a speed of 300,000 kilometers per second.

30,000 kilometers per second.

100,000 kilometers per second.

200,000 kilometers per second.

The velocity of these particles is clearly recorded on the data log.

29999999 km per second.

The 30-kilometre trail is not a short distance for us. Even if it is to drive, the speed of 100 yards will take more than ten minutes. However, propelled by the LHC accelerator, all the particles are running at full speed, speeding around the track at a speed of more than 10,000 times per second.

However, although the speed of light is theoretically 300,000 kilometers per second, it is not really possible in the laboratory.

Even if it was a vacuum, he couldn't do it.

But that's okay, because in the universe, the speed of light is difficult to reach his extreme.

When the velocity of all particles reaches 29.9999999 kilometers per second, that is, after reaching the speed of light equal to about 99.99999%, millions of particles collide instantaneously......

Rumble......

No one can describe what it was like to collide this time.

No one really saw the collision clearly.

Because, in this very different experiment, many, many phenomena are no longer observable to the naked eye.

If you really want to describe it, it is the explosion of perseverance.

Millions of particles collide to produce trillions of degrees of temperature, which is 100,000 times the temperature of the Sun's center.

Under such a fierce collision, countless particles have disappeared, some have mutated into other particles, and some have created new particles.

However, this data is simply too large and huge.

In just one second, the entire collision generates thousands of terabytes of data.

If it weren't for the fact that the laboratory had built a galaxy-level supercomputer, I am afraid that the recording of data would have forced the entire experiment to be interrupted.

"Alright, it's over. ”

"Ah, Teacher Mo Bai, is this the end?"

"yes, what else do you want?"

"Teacher Mo Bai, it seems that we haven't seen anything. ”

"What do you want to see?"

Mo Bai smiled: "Like this kind of lens that simulates the Big Bang, I'm afraid we won't see such a picture in our lives." Even if there were cameras to record it, it would not be able to capture such a scene. At most, we can only rely on the data recorded by the supercomputer to restore the particle collision later......"

"Uh......"

Mo Bai said, and the students blushed.

They really thought that this might happen.

But alas, an experiment is an experiment.

This kind of beautiful picture imagined in your mind is destined to be impossible for you to observe.

All we can study is the data that has been recorded.

Not just in the lab, of course.

Even in the real world, our naked eyes will never be able to see what happened in the Big Bang.

Even, let alone the Big Bang, the picture of two planets colliding is estimated to be never seen in a lifetime.

It's just that it doesn't matter if you can't see it, scientific research is so magical.

Although scientists cannot see the images produced at the time of the collision, they can study and even restore them through the data.

"Okay, don't be fooled, let's analyze the data, that's the most important job. ”

"Whether or not we can discover God particles is in this experiment. ”

Facing the instructions of the students, Mo Bai buried his head in constantly analyzing a series of data generated by the collision.

Some people may say that if you can't find it in one experiment, you can experiment several more times.

After all, sometimes an experiment may not record the data that is so complete.

But alas, such a statement can only be another experiment.

The Large Hadron Collider is different from other ordinary machines, not to mention its extremely expensive research and development expenses.

Similarly, the cost of using it is extremely expensive.

Even, if it is used a few more times, the entire hadron collider will have to go through several months or even half a year of testing.

Since the birth of the European Large Hadron Collider (LHC), only a dozen experiments have been conducted.

After each experiment, months were spent on maintenance and testing.

Well, it's a bit embarrassing that the LHC broke down a few times during the experiment, and this repair took 5 years.

As one of the investors, Mo Bai was able to give him a separate experiment, which was enough to save face.

"Brush Brush ......"

Supercomputers are constantly working, and billions of pieces of data are constantly being sorted, organized, sorted, and documented.

God particles may be hidden in these billions of data.

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