Chapter 600 White Hole? The World on the Other Side of the Quantum Field
The whole device was attacked horribly.
Kesbaia could feel it.
Because after being integrated into this machine, this machine has become an extension of his body.
Although there are limitations on the control area.
But just like humans cannot control their appendix to open like a hand, it does not prevent people from being in excruciating pain when the appendix changes.
He can also feel the changes in those areas.
Fortunately, the defense of the device has a certain effect, and the entire device has not been completely destroyed.
According to the original plan, Kesbaia should have retreated now.
But he does not want to stop there.
"We must get more information."
"How many such opportunities are there?"
Kesbaia knew very well that one of the guys racing with him was called "Time".
In the Yang world, things should have gradually deteriorated.
The time when this civilization really took action is unknown.
It may be tomorrow.
If Kesbaia retreats now and waits for the machine to be repaired, it may take several years or even decades.
That is a waste he absolutely does not allow.
"Replace the needle tip."
The probe has a spare.
Kosbeya asked to replace the needle tip and continue the research.
However, the original vacuum environment had been destroyed at this time, and a large number of free particles entered the interior.
Kosbeya's accuracy was damaged.
But this was a once-in-a-lifetime opportunity. When new matter entered, what changes would occur to the original particles?
He observed carefully.
When the new particles entered the interior, as expected, everyone began to pair up like looking for friends.
The difference was that Kosbeya observed bosons.
Bosons were not affected.
At the same time, Kosbeya also saw that these particle pairs were actually attracting each other. Perhaps under the guidance of strong and weak forces, they were neatly arranged and then formed a new one - atoms?
These atoms look like isotopes of other atoms. Although the number of their protons and neutrons remains unchanged, the number of quarks inside protons and neutrons is 1 times the original number.
After the atoms are formed, they begin to combine at the atomic level and slowly form macroscopic matter.
And this macroscopic matter is the shell of Star City No. 5.
This discovery is amazing.
They are actually being controlled by another more powerful and invisible force.
This is the macroscopic world, and Kespera continues to enter the ultra-microscopic world.
The contraction force of the ultra-microscopic world still exists, and the particles begin to return to the collision stage.
These collisions do not affect the state of the atoms themselves.
Perhaps it is because their distance is too short.
The particle pairs in each system are gradually coordinated and synchronized at this moment. As the needle tip enters the string, these particles are affected a little.
Their system began to become chaotic and the synchronization rate was decreasing.
After the synchronization rate decreased, Kespera saw that some particles began to merge.
No, one of them disappeared after the collision.
"Where did it go?"
Energy conservation, this particle disappears, then another particle appears in a corner of the universe.
Kespera does not think it will be that far.
This disappeared particle may have transferred energy to a certain place.
"Transmitting information also requires energy, could it be this."
Kespera made a bold guess.
But what will the information of a particle cause?
Can the other party judge what happened through a particle?
A particle may be considered consumable, but its own energy is not strong. Unless hundreds or thousands of particles disappear, it is possible to form a piece of information that can be read.
"Is it because the impact I created is too low?"
Kospera guided some atoms here.
When the atoms came into contact with these contracted particles that formed a complete atomic system, the entire atom changed dramatically.
A large number of quarks disappeared, and then new quarks recombined to form new particle pairs.
Kospera was right.
These energies could not disappear for no reason.
They actually reappeared soon.
Because Kospera's observation range was too narrow before, he did not detect it.
And now, at a wider level and with more samples, Kospera observed this phenomenon that lasted only about one nanosecond.
Particles disappear and appear!
How did it do that?
Kospera's doubts were quickly resolved.
He even guessed that it was the quantum field that was causing trouble, but in fact it was not.
It was something that shocked Kospera more than the change of the quantum field.
Space!
Space itself spewed out particles.
Cospeia used the word "spit" because he really saw the appearance of a space hole.
Or it should be called a white hole.
A white hole is the opposite of a black hole. A black hole swallows matter, while a white hole spits out matter.
A white hole is not white, it is also black.
Cospeia felt that he had observed the appearance of a white hole.
But is there really only one possibility, a white hole?
If it was spit out by a white hole, then the particle just now must have been eaten by a black hole.
But Cospeia did not observe this phenomenon of eating.
Where did the particle go?
Cospeia introduced more atoms. He wanted to see more changes and find results from the massive data.
This is correct.
Soon, Cosbya discovered an anomaly, a large number of particle pairs in an atom disappeared.
The particle pairs collided with each other first, and they did fuse.
As fermions, two quarks fuse.
But the energy of one quark decreases at the moment of fusion, and even causes the other quark to disappear in that 1 second, leaving a blank there.
What can cause this phenomenon?
The observation collapse is affected!
Particles are waves, and they will collapse into stable particles after being observed.
If the observation collapse is affected, will this particle turn back into a wave for a moment?
It disappears here, not really disappearing, but just the peak of the wave at this position becomes a trough.
The trough is hidden on the other side of the quantum field and cannot be seen.
So where did the quark that really disappeared go?
It may have been taken away by the trough and went to the other side of the quantum field.
Absurd.
But this explains the fusion of two fermions.
At that moment, a force may have exceeded the degeneracy force that prevented the two fermions from fusion, forcing the two fermions to fuse.
But the force only lasts for a moment, and then the degenerate force takes effect, squeezing the fermions away.
The original fermions will be squeezed to other places.
Generally speaking, it is somewhere else in the universe, which may be 1 meter away, or 100 million light years away, or 10 billion light years away.
However.
If a "white hole" appears and spits out this fermion, then we can't guess that it is somewhere else in the universe.
It may be taken to another world... on the other side of the quantum field.