<h4>Chapter 430: Chapter 431 Anti-Matter Engineering (Part I)</h4>


    ording to the construction n, transport organisms cross several astronomical units to reach the vicinity of the star, and adjust the trajectory to enter the orbit at an exocut angle, moving around the star.


    "I have reached the star."


    After using radiomunication to send information to the ethnic group, the transporting creatures falls into silence, which is the most energy-saving way. It needs to wait for more materials to be delivered here. The materials it carries are only a small part of what arge individual needs to incubate.


    During this period, the energy consumption problem of transport organisms is solved by photosynthesis, and the heat umtion problem caused by the distance is also solved by the substances carried, so it is not a big problem.


    With the passage of time, more transport creatures are bred by them and carry arge amount of material to the vicinity of the star, and then enter the same state of silence as the first transport creature. They are also waiting for the subsequent arrival of the same family.


    When the umtion of material meets the requirements of the n, hundreds of transport organisms are separated from the group and gather together to form a huge cocoon. While orbiting the star, the cocoon slowly begins to rotate, and the central axis of the rotation axis is perpendicr to the direction of the star.


    The cocoon gradually expands in this rotation state and absorbs the energy of the star to rectify the matter. The principle is the same as the honeb, which processes or disassembles molecrpounds through lost electrons.


    Gradually, the appearance of the cocoon changed from a constantly rising and shrinking saa to a gyro-like shape, and the bottoms of the two cones merged with each other to form.


    The cone angle facing the star side is obtinto-angle, so the bottom surface isrge, but the height is not high, and the cone angle on the opposite side is very small, but because the bottom fits each other, the height of this cone is very high.


    At this time, the cocoon no longer shows continuous rise and contraction, and it is straightened by the two cones.


    After another period of time, the first single-molecr tentacle broke the cocoon, stuffed the substance of the cocoon into its side mouth toplete the recovery of the substance.


    Presented in the cosmic vacuum is a very strange biological structure, which still maintains its rotation and never stops. The central axis is a bone, which runs straight through the organism and perpendicr to the surface of the star.


    It is not so much the bones of this organism as the bones are covered with some meat. Most of the meat is concentrated at the end near the star, and there is not much meat on the hollow bone pointing to the deep space of the universe.


    Subsequently, the meat block at the bottom extends the skeleton scaffold parallel to the star surface, and is covered with a ck-brown meat film that absorbs light energy and converts it into electric energy. The principle is no different from the rhizome. The organism can obtain great electrical energy with this.


    The hollow bone slowly grows severalyers of superfiber film. The spacing between the films is notrge, but they are all filled with chlorine gas. Because the superfiber film itself does not contain hydrogen or metal elements. It isposed of carbon and oxygen, it will not form hydrochloric acid or be corroded by chlorine.


    This is a sample organism. The collectors have no experience, so they need to make experimental antimatter. If they can sessfully produce antimatter, they will begin to breed such organisms inrge quantities for the poption and expand the production scale.


    To make antimatter, you first need to know what antimatter is.


    Antimatter is the opposite state of normal matter. In addition to this, it is the same as the property of positive matter. The electricity is equal but the electricity is opposite.


    Antimatter also reacts chemically with each other. In addition, antimatter and antimatter can also undergo nuclear fusion reactions. The energy released is not much different from that of positive material nuclear fusion, but the charge radiation released is positive charge.


    After knowing this, you can start to make antimatter, and the collectors are ready to make antihydrogen atoms.


    In fact, the principle is very simple. Find a way to create a positive charge and anti proton, and thenbine the two particles to form an antihydrogen atom.


    It''s very simple, but the question arises. How to make a positive charge? How to make an anti- proton? How can they be obedient andbine with each other? Even if it isbined to form an antihydrogen atom,


    How do you know if the antimatter has been sessfully manufactured? How to induce antihydrogen atoms to be stored?These are all problems.


    And now, the collectors have solved it.


    First of all, it is not too difficult to obtain positrons. The fusion of four protons into a helium nucleus will release two electron neutons and two positrons at the same time. Therefore, it has a natural advantage in material resources to produce antimatter near the star.


    The only problem is how to filter the positrons out of the various radiation released from the star for particle processing, and the chlorine in the hollow skeleton will absorb the metal ion flow and hydrogen ion flow released from the star, and the positron flow will be filtered out.


    Positrons are also electrons, but they carry a positive charge, so as long as they are reversed, they can also be affected by strong electric fields. collectors take advantage of this to reverse elerate the movement speed of positive electrons.


    Of course, despite this, the movement speed of positrons is still very fast, which will probably reduce the near light speed of positrons by 15%, and then meet the same decelerating antiproton under the action of an electric field.


    Then there are antiprotons, which is much more difficult than positrons. If you want antiprotons to appear, you need arge number of protons to bombard the metal target. The energy level required is about 2,000 times that of positron formation, which means that a particle elerator is needed.


    For this purpose, collectors must design another set of organisms.


    After confirming that the positron can be filtered out intact, which is not much different from what was expected, more than a dozen transport organisms left the group, and thebination can produce anti-pon particle elerators.


    This creature is also a hollow bone that runs through the whole, but unlike the organism that collects positrons, it has two ringed bone extensions. One is the eleration ring, which is used to elerate the proton flow and bombard the metal target to make anti protons, and the other is the binding ring, which is used tobine anti protons and positrons to be antihydrogen atoms.


    It also has a dark brown meat membrane that produces light electricity, and it isrger and wider than the previous organisms that collect positrons. If the meat film that collects positron organisms is one, then the meat film that makes anti proton organisms is one hundred.


    To make antimatter, in general, a strong maic field is an indispensable part, and in order to form a strong maic field stably, a huge electrical energy is needed as the basis.


    This is why the collectors and Huo Gu both believe that antimatter should be made from organisms and built near the stars, because this ce is really suitable.


    Energy has energy, positrons have positrons, all natural existence, is there any better ce than this?