Although Jing's information organ cannot cover such a long distance, Jing's eyes can "see".
Several of Jing's eyeballs have been transformed into telescope structures.
Jing grew a circle of eyeballs around his head to observe distant astronomical phenomena, mainly for the convenience of being able to see more of the starry sky without turning his head.
Let’s not talk about eyeballs.
There is indeed a binary star system 892 light years away that Nuo said.
A binary star system refers to a celestial system consisting of two stars that appear to be very close to each other relative to other stars.
The binary star system Nuo is talking about is a physical binary star, which means that one star moves around another star and has a gravitational effect on each other.
The two stars in this binary system are still very young and are traveling through space with each other.
There is a very special asteroid in the gravitational fields of both sides.
Jing didn't pay much attention at first. He thought it was just an asteroid that had lost its way and met with bad luck.
But Nuo was surprised when he said it was an antimatter asteroid.
How the hell is this possible?
The possibility of natural antimatter objects in the universe does exist, but Jing Bu feels that he will just happen to encounter them at a distance of 892 light years.
For Jing, this distance is actually a matter of ten thousand years of space travel.
Compared to its life span of millions of years, this is nothing.
So it's really too close.
If the Ika Federation wanted to go to such a long distance, it would take more than a dozen generations to reach it, even if the creature was dormant.
If it is indeed as promised.
Then this antimatter asteroid is the reason for Jing to leave this star system early.
That is an antimatter asteroid! According to Jing's observations, its diameter is estimated to be only 400 meters, but the energy contained in it is enough to blow Jing to death hundreds of times. If you can successfully capture it, even if you collect a little wool, it will be enough for Jing to use it for a long time.
But there's a very obvious problem.
Where did this antimatter asteroid come from?
Jing's creation of antimatter is actually very primitive. He uses a force field and a strong magnetic field to accelerate the collision of particles in it. It takes a lot of time and energy to create a little antihydrogen atom.
Storage also relies on its own force field.
The source of antimatter fuel for the Ika Federation is to build a large particle collider, which is driven by stellar energy. Although their manufacturing methods and output are much higher than Jing's.
In essence, what He Jing is doing now is very similar.
So where did this antimatter object come from?
Moreover, the gravitational structure between two stars can trap an antimatter celestial body, but won't the matter ejected by the two stars in the binary star system collide with this celestial body?
Jing's eyeballs are constantly adjusting the parameters, but if you want to know more, it's best to go to a place 892 light years away in person.
Jing looked at the huge celestial body at his feet.
Finally decided to leave.
But before leaving, he needs to reserve enough energy.
Of course, Jing didn't just run away 892 light years, he was not a fool.
The nearest destination is actually a star system 8.2 light-years away.
Jing's naming of galaxies actually follows Nuo's sentence - "Do you still want to give food a nice name?".
Ever since.
Jing no longer cares about the name of the star system.
Just know what it is.
All the galaxies around here are actually only related to brightness and size in the scene naming rules.
There are 6 levels of brightness from high to low, represented by A to F. The size is divided into 9 levels, represented by one to nine from small to large.
The sun is a second-class star.
Take the Ika Federation protostar system as an example.
Its brightness is C and its size is two, which means it is a C-level star.
If there are multiple C-level stars within 100 light-years, they will be divided into C-2-1, C-2-2, C-2-3 and so on according to the distance of the scene.
If it is a binary star system, it is usually a consecutive name.
The binary star 892 light-years away is a B3-C3 star.
Jing didn't need to give these stars precise names, he just needed to know where they were.
At the same time, Qisi will update the star map of the scene in real time within 100 light years.
As for those 100 light-years away, Jing will only remember some specific stars.
For example, B 3-C 3 stars.
Simple and crude naming rules.
In the eyes of individual beings in the universe, there is only a difference between celestial bodies that can be eaten now and those that can be eaten later.
Jing stayed on the star of the Ika Federation protostar system for nearly seven hundred years before leaving.
When leaving the star, Jing's main power organ had been replaced by an antimatter engine.
Of course there isn't a lot of fuel in it.
However, Jing's requirement for the anti-matter engine is just that - it just needs to be able to move.
It's very violent.
After using the particle flow generated by the stellar storm to push the magnetic field away from the star, Jing immediately turned on the antimatter engine.
The scenery that had already reached 1000 meters per second sent itself to a speed of 4000 meters per second in the next ten minutes.
This is not the limit of antimatter engine acceleration.
Simply put, it's still warming up.
And as a first-time user, it also requires some adaptation.
In the second year after leaving the star system, Jing has reached 10% of the speed of light.
The antimatter fuel that had been stored for hundreds of years had been burned out long ago. It had been stored for three to four hundred years, but it was burned out in less than half a month. In the subsequent time, it was completely accelerated by the fusion engine.
It is definitely impossible to say that I am not distressed.
Jing finally understood why Nuo stayed in the home galaxy for such a long time, and even spent hundreds of thousands of years to eat all the food in the entire star system.
Just to reserve energy!
One-tenth the speed of light.
To be honest, Jing didn't expect that he could reach such a speed in such a short time.
Although the fusion engine is used to accelerate in the second half, at least 60% of this one-tenth of the speed of light is contributed by the antimatter engine.
It took less than half a month and contributed 70% acceleration.
The fusion engine contributed 30% in the next two years or so.
Understandably, the quality of the scenery is still great.
It's not like a gentle push can give any matter speed in space.
If this is really possible, why would we need to build a planetary engine when the earth is wandering?
Arrange a few people to push it up, maybe it will be faster.
After leaving the star system, we can feel the emptiness of the universe more and more.
A creature like this that is close to 2,800 meters is actually still small.
After chewing on stars for hundreds of years, Mr. Jing must grow stronger!
In fact, even without the temptation of antimatter objects, Jing would not have been able to stay in this star system for too long.
After gathering enough fuel, he will leave.
It’s the same old saying.
Too "barren"!
The Ika Federation's evil deeds have resulted in many needed materials having to be produced by Jing himself! This is a galaxy where even the iron needs to be made by oneself!
"D2-1 planet, wait for me!"
The star system 8.2 light-years away is completely unaware that an individual life in the universe is rapidly approaching it at this moment.
(End of chapter)
