Chapter 876 - 877 The Return of Thought
In order to obtain information about the galactic nucleus, the successors once again assigned a task to let some of their peers go to the galactic nucleus to obtain information.
The overall space-time of the river system is compressed due to the relationship between correction organs, and the difficulty of superluminal speed has increased. In order to solve this problem, the successors have created a star-scale swallowing giant.
This biological giant structure, which can approach the size of a red dwarf, can still be effective due to its own gravitational ring mass and its ability to store negative mass.
It is the best choice to carry out the galaxy nuclear detection mission in the current environment.
The scout team of this group of successors went to the galactic nucleus at the speed of light and made observations of gravitational waves along the way, but if they notice a little abnormality, they will not hesitate to hide at the speed of light.
During the exploration near the galactic nucleus, they captured a series of electromagnetic pulse signals.
This series of electromagnetic pulse signals is very strong, but because it is near the galactic nucleus, this series of electromagnetic pulse signals is not less conspicuous in the general environment. If the successors had not come here as scouts to obtain environmental information, it would not have been easy to notice this series of trivial signals.
After the resolution, the successors decided to find out what the source of the signal was.
"The signal comes from this side. I'll go and have a look. Stay away."
"Be careful. This is close to the galactic nucleus. It may be a trap laid by the correction organ. If there is an abnormality, it will immediately send us a warning signal."
The implication is that if there is danger, the scout team will not hesitate to abandon the individual and escape at the speed of light.
This is ruthless, but it is a common choice for successors, so even individuals who may be abandoned do not object to it.
"Hmm."
As the distance approaches, individuals can see the source of the signal through their visual organs.
It is a spherical object with a gray-brown metallic luster, but it is as reflexive as a mirror. The sphere is not large, about the size of a fist.
This is relatively rare, because it is very difficult for such a large object to release the pulse signal received by its successors.
Because the signal release needs to consider the problem of energy, the stronger the signal, the greater the energy demand. If this sphere wants to release that kind of pulse signal, it may need to use antimatter.
But in this way, you need a coolant to cool down, otherwise you can't operate for a long time and will self-destruct due to heat accumulation.
Considering energy, conversion, signal output and other links, the volume will not go down after careful calculation, unless the sphere has only appeared recently.
But this doesn't make any sense, because the signal released has run for dozens of light years away and spreads at the speed of light, which means that the sphere has existed for at least decades.
"The signal is released by this sphere."
The individual confirmed again, looked at it for a while, looked at the direction of the galactic nucleus, and roughly understood the principle of the sphere. The source of energy is not the sphere itself.
The sphere does not carry any energy. The energy comes from the galactic nucleus. The pulse beam scattered from the galactic nucleus is refracted and deflected after contact with the sphere.
The sphere itself has rotation, which makes the refracted pulse beam look like some kind of signal.
"This design is... Si actually thought of continuing herself in this way?"
Further analyzing the sphere, the individual accidentally found that the interior of the sphere is actually an information memory, which is, in layman's terms, a hard disk that stores compressed information.
What's more surprising to the individuals is that it was their amoeba that made this hard disk, which was created by the group of dead collectors.
Si encapsulates his thinking, memory, etc. in this memory, and designs the rotation of the sphere to release pulse signals fixedly.
This is to continue the Amoeba. At that time, Si felt that the general trend of the ethnic group had gone, so he thought of leaving the fire of Amoeba in this way.
When a future civilization arrives near the galactic nucleus, or the sphere floats away from the galactic nucleus, it is known by other alien civilizations.
Then if the other party is curious enough or for some other reason to turn on the hidden switch inside the sphere, the compounds left inside the sphere will be constructed into microscopic amoeba organisms.
The collector can recover, even thinking about himself. The sphere stores the thinking and memory of self-replication, and all that is missing is activation and body.
All this is uncertain. There are too many variables to control, but it is better than destroying the clan. This is what I thought at that time.
"Not a small harvest."
The individual will bring the sphere left by thinking, and it is ready to bring it back to life.
Si's choice is a helpless choice made by the ethnic group in the face of danger. Now that the successors have found them, there is no need to continue this choice.
And considering that the intensity of the battle will gradually upgrade, the inconspicuous sphere may not be intact, and the amoeba gene will continue to exist.
...
The detection intelligence of the galactic nucleus and Si were brought back to their successors.
There is not so much time for Si to adapt to the psychological gap after abandoning his will. After giving Si a rough upgrade to a successor, he pulled it to participate in the strategic decision-making of his successors.
The main content of the discussion is how to break through the defense of galaxy nuclei, continue to implement the original big strategy, and reduce the galaxy nucleus as the energy source of the correction organ.
"According to intelligence feedback, the situation near the galactic nucleus should be like this. An unknown position restricts negative matter. forms a protective cover with a diameter of tens of tens of thousands of light years to protect the galactic nucleus from the mass reduction of our superluminal negative material missiles."
"These space-time columns are supposed to be the result of negative matter. Although we can't understand the internal structure, it is not difficult to see from the overall layout that the space-time columns and the protective cover that wrap the galactic nucleus are integrated."
"If the space-time column is the negative material transmission pipeline of the protective cover as we think, then it is not the best way to complete the breakthrough by cutting the protective cover with positive substances, because no matter how the negative substances are cut, the protective cover will be replenished, which is obvious from the scale, even if we exhaust most of the river system. The nebula material can't consume the protective cover of the correction mechanism.
...
After discussion, no successor can give a good plan, either the feasibility is not high, or it is not suitable for a long-term strategy.
For example, by sufficiently canceling the external package of the superluminal negative material missile, the partial negative mass positive material of the galaxy nuclear shield can achieve the purpose of sending the superluminal negative material missile into the galactic nucleus.
At first glance, it is very reliable, but unfortunately it is not very reliable. Strictly speaking, this situation is to use the positive material in the river system to offset the negative mass of the protective cover.
However, the negative quality of the protective cover is very large, and no successor can determine the thickness of the protective cover.
If they keep testing, I'm afraid that the correction agencies will not give them so many opportunities. historical
There is also the supplement of negative mass. The space-time column is suspected to be able to supply the continuous negative mass of the protective cover, which means that the feasibility of penetration by neutralizing the protective cover achieved by using positive substances is greatly reduced.