<h4>Chapter 478: Chapter 479 Preparation in Advance</h4>


    At the end of the third sub-light speed voyage, the sub-light creatures arrived at another destination star. As a price of deceleration, their antimatter reserves have been consumed, but it ispletely enough to move below the speed of light.


    At the third stop of their journey, this star system is a single star system, just a red dwarf. The light intensity is not high, and the number ofs is notrge. There are only two, and they are all of small masses, which is equivalent to three times the mass of satellites in a gaseous giant orbit in their initial star system.


    s are the umtion of residual gas and debris from the birth of stars. The birth of red dwarfs shows that this ster system has less material, so twos are already rich in resources.


    A considerable part of the resources for the construction of this ster system rely on transportation from other ster systems. At first, they also organized several resource transportation for this ster system.


    However, such colonization is also worthwhile. This ster system is also a ce for collectors to closely study how to obtain ster matter.


    "Wee to this ster system."


    "We need anti-matter supplies for the next sublight voyage."


    At first, he directly showed his needs to hispatriots in the ster system, and the collector in the ster system replied.


    "Follow this route and enter the orbit."


    ording to the route given by themunication, at the beginning, these individuals and the antimatter giants are connected. The first sharp tentacles of a single molecule go deep into the interior of the sub-light-speed organism. Through the channel built by themselves, the depleted anti-matter container is taken out and reced with a full bottle of anti-matter container. The whole process is so simple and rough. Violence.


    When the tentacle is pulled out, the propped opening will heal because of the mucus outside the tentacle, so it will not leave a wound or even a scar, as will the outermost metal bone.


    "After you assemble the protonttice, our antimatter filling bes so troublesome. We can only open the gap between the two protonttice to rece the antimatter for you. There is no battle. There is no need to adopt such a biological design, right?"


    The antimatter giantined to the beginning. If it was a subluminal fast organism in the past, the tentacles of the antimatter giant did not need to find the right position. If you choose any ce to pierce it, you can rece the antimatter, but now it is not, because the density of the protonttice is smaller than the radius of the hydrogen atom, and the single molecule is The first tentacle can''t pierce this protonttice at all. It''s too dense.


    "This is a standing strategic material, which is convenient for the rapid formation ofbat effectiveness in time duringbat."


    "The protonttice, like antimatter, is an impossible product processed by cells. It requires a giant structure like you to make it. If there is an enemy, and it isparable to our strength, and the battle situation is very fierce, then we are likely to face a shortage of protonttice."


    "The will has said that you should know how to think of danger in peace, be born in worry and die in peace. The same is true for you anti-matter giants to constantly manufacture and store anti-matter all the time."


    Exin to the new collectors, which is the collective idea of their group of collectors.


    "So that''s it."


    "So where is your next destination?"


    The antimatter giant continues to ask questions, just like previous collectors of other star systems.


    "A double-star system nine light-years away."


    "There are obstacles on the route to there. You need to be prepared. It will be dangerous to go there in this state."


    The antimatter giant reminds these people that the collectors stationed in the star system are not only responsible for the task of resource manufacturing and mining, but also for the task of observation. As now, there is a dangerous situation on the sublight-speed route. They need to exin, which is why they will ask where they are after they first arrive in the star system.


    Of course, even so, it cannot ensure 100% route safety. If it is a small-mass wandering ck hole that is difficult to observe, or a rtively small and sparse number of wandering meteorites, these are not easy to find, and organisms in sublight speed can only ask for more blessings.


    "What kind of obstacle?"


    At the beginning, the obstacles at the sub-light speed state, even a gas cloud, are extremely dangerous.


    The anti-material giant replied with a more fortunate emotion.


    "Arge sma high-temperature neb is ejected from a supernova explosion of 70,000 light-years. Fortunately, it is far enough away from us."


    Supernova explosion is a cosmic disaster at the light-year level. It can directly kill a range of several light years to more than 20 light-years. Within the range directly affected by supernovae, that area will be a dead zone.


    "How big is that neb?" Another collector asked.


    "In the range of two to three light years, there is an error in the measurement of the star."


    The antimatter giant conceived, but only gave a rough value. There was no way to the light-year distance, which was too far. Coupled with the gravitational interference of the star and the speed limit of light, it is impossible to answer an urate value.


    "It''s not very big. We can go through it directly in the sub-light speed state..."


    "If you don''t understand, don''t talk nonsense. The neb will make us fall out of the sublight speed. Even if we have the ability to pass through the neb, I''m afraid the umted high temperature will cook us collectively. It''s a big problem to dissipate heat in a vacuum environment."


    Before the collector finished speaking, he was immediately refuted by other fellow collectors.


    "That''s it."


    After thinking about it, the rebutted collectors also understand that the anti-matter shields in front of them wille into contact with the neb, which will lead to the annihtion of positive and anti-matter, and then they will also slow down.


    After realizing this, the collector was also afraid for a while.


    At first, they began to obtain material from their peers in the star system for the transformation of organisms. They were equipped with a batch of solid-state helium for cooling, and then a vacuum instionyer design. Vacuum is an excellent instionyer, and only heat radiation is the only way of heat transmission.


    "Well, why did the star 70,000 light-years away explode?"


    The collectors waiting for thepletion of the biological transformation sent such a question, and this question also aroused the curiosity of the collectors.


    "It should be that the supergiant reached the end of its lifespan, and then there was a supernova explosion."


    "Not necessarily. Maybe a civilization has used a ck hole bomb. As long as it can mass produce antimatter, ck hole bombs can be made, or ck holes can also be made in other ways, which can also realize artificial supernova explosions."


    The collectors were discussing with each other, but initially they wanted to get the answer directly from the anti-matter giant.


    "What are your observations?"


    "I don''t know. When we began to observe there, the debris after the supernova explosion already existed, and the supernova explosion urred for at least 200,000 years."