Chapter 467: Chapter 468 Proton Lattice
Above the planet, a creature that looks like a sphere crawls on the ground. They are lined up in a long line and jumps down from the pool of a lake in an orderly manner.
These are the teams that produce metal hydrogen. Their spherical metal bone structure is filled with liquid hydrogen and moves with six tamps. The volume is comparable to that of a truck. The vast majority of the volume is solid metal hydrogen, which really belongs to the organism itself.
Although organisms have brains, they are not very developed, so they are just animals that can simply listen to the collector and have a life field. In the final analysis, their task does not require too much intelligence. The meaning of existence is to carry a ball of liquid hydrogen and jump into the lake to embrace death.
As the depth decreases, the water pressure becomes higher and higher. The organism, together with the external water body, adjusts the internal and external pressure to the same horizontal line to avoid cell death. However, the barren brain has been necrotic because of lack of nutrients, so this is a living corpse. The cells are still alive, but the brain is no longer there.
Cells spontaneously raise impurities in the water, and the result is that it will eventually harden and necrotize their own structure, but this is a very slow process.
As the depth continues to decline and reaches a very deep place, the spherical volume begins to change. Because the pressure is too large, it has already affected the level of the atomic structure.
The increase in pressure causes the distance between the two hydrogen atoms to get closer, and what is the result of this closer?
One electron will be ejected, and two protons share one electron. The reason is that the lowest energy level of electron orbit cannot accommodate the next two electrons. The allotrope structure of hydrogen molecules was born under such pressure.
Of course, as a container for encapsulating liquid hydrogen, the metal bones hired by the outside will also be compressed in this environment. However, the atomic sequence of the elements that make up the metal skeleton is relatively high, but one level of electrons are squeezed out, and other levels of extranuclear electrons are supported.
At this stage, further processing can be carried out, but this processing step needs to be carried out at the bottom of the water, and it is deeper than the previous processing of liquid metal hydrogen.
Because only in this way can enough water pressure be formed to form solid metal hydrogen.
The processed liquid metal hydrogen is not thrown into the deep well, but is sent to the ground by the rhizome. The direction of the water pressure is omnidirectional, which is not conducive to processing liquid metal hydrogen into a flat and extremely dense solid metal hydrogen. It will only be compressed into a spherical structure when the solid metal hydrogen is formed. This is not The results that the collectors want.
Therefore, there is only one solution, that is, to send it directly to the bottom of the water and bear pressure at the bottom of the bottom of the water. Because it is the bottom of the water, the direction of the water pressure tends to be one-way. can get a flat solid metal hydrogen structure in this way.
Such an idea is simple to say, but it is very difficult to do in practice, because the water pressure is very large, which leads to the amazing density of the water body, but ordinary liquid water is like a colloid, and the spacing between water molecules is very small.
In order to solve this problem, collectors use antimatter to form strong gamma rays to irradiate the water body, destroy the molecular structure, create a large number of charged ionons, and then use a strong electric field to repel it, so that the water pressure of part of the bottom of the water can be reduced to a certain extent.
While the water pressure is reduced, the processed flat liquid metal hydrogen is transferred to the bottom of the water together with the metal bone container. After placing it, the strong electric field will disappear and the water pressure will return to its original state. At this time, the liquid metal hydrogen will squeeze out the remaining extranuclear electron under strong pressure to form a proton. That is, the crystal structure composed of hydrogen nuclei.
During the processing process, in order not to curl, the metal bone container encapsulated with liquid metal hydrogen will be adsorbed by a strong electric field and firmly attached to the bottom of the water, while the other side is seized by the repulsion force of a strong electric field to ensure that the flat structure of the metal skeleton does not make it curl.
Therefore, liquid metal hydrogen can only be forced to maintain flattening and further compression. Of course, the encapsulated metal bone container will also be compressed together.
Similar to the liquid metal hydrogen bottom, the metal skeleton is replaced with another material container, and the proton lattice is replaced and re-encapsulated to stabilize the internal pressure.
The strong electric field that can offset part of the water pressure starts again, and then the proton lattice is taken out after the pressure slows down and transported back to the surface by the rhizome.