Making particle collective almost from nothing opens the road to the most fundamental 3D-printers, that ever imagined.

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Making particle collective almost from nothing opens the road to the most fundamental 3D-printers, that ever imagined.

At first, we must realize that six atoms are not a commercial solution if we are thinking about the quantum tests where the particles can get collective form(1). What if we could create the machine, what forms material straight from energy? The process for that thing is theoretically a very simple thing. The system must form the quarks, and then shoot them together, and that thing would make the most fundamental machine that people ever imagined. But there are some practical problems for accomplishing that thing.

Creating material straight from energy is one of the most fundamental ideas, whatever created. If this kind of system could accomplish it would revolutionize technology at all levels from the quantum to the ships and buildings. The new quantum experiments have proven that particles can form collectives almost from nothing, and this kind of thing makes people think something, which is much more incredible than the 3D-printer, what is called "Santa Claus machine".

The "Santa Claus machine" is a 3D printer that creates merchandise straight from the 3D CAD (Computer-Aided Design) drawings. So that thing is the fundamental CAM (Computer-Aided Manufacturing) method, which can machine also metals if it uses the modified MIG-welding machine. The limit for the size of the merchandise is theoretically unlimited. But the 3D printer system needs material for making the merchandise.

But the new quantum tests reveal that material can create almost from nothing. That means that the small number of atoms can create the collectives almost from nothing. The link to the article about those tests is below this text. Putting a couple of atoms in a certain form is not the thing, which means a practical solution.

As I wrote at the beginning creation of material is an easy thing in theory. The system requires lots of free quarks, and then those quarks must just shoot together. The quarks must also separate to up and down quarks, and then those quarks would shoot together. In that way, it is possible to make material straight from quarks. And quarks can form from superstrings, but how that thing can happen is the mystery.

The fact is that theoretically there is a possibility to make the material from the energy in a theoretically very easy process. First, the system must make quarks, and then shoot quarks together. So by using this kind of chain reaction is possible to make the material from energy, but the trouble is that capturing the quarks is a very difficult process that requires very much energy.

(1) https://www.sciencealert.com/quantum-simulator-reveals-that-phase-transition-can-begin-with-just-six-atoms

https://www.qresearch.it/quantum-experiment-reveals-particles-can-form-collectives-out-of-almost-nothing/

https://www.worldnpost.com/quantum-experiment-reveals-particles-can-kind-collectives-out-of-virtually-nothing/

Image: https://www.sciencealert.com/images/2020-12/processed/101-quantum-simulator_1024.jpg

 https://curiosityanddarkmatter.home.blog/2020/12/20/making-particle-collective-almost-from-nothing-opens-the-road-to-the-most-fundamental-3d-printers-that-ever-imagined/