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10 15 20 25 30 35 40 45 31 radius), where for a plasma reactor in nano-dimensions the core of the caroline core is realized by at least one magnetic and/or electromagnetic field which hold the protons and neutrons (stripped from electrons); 24. Plasma reactor, as described in claim 1, for the creation of synthesis processes, in example for the recycling of CO2 into oxygen, water, carbon (as described in figure 3) or recombination with any other matter for production of new desired organic, biologic (i.e. amino acids as described in figure 4) and mineral materials, in example the method described in claim 25; 25. Method of a synthesis process for the creation of various materials, by following next steps from which some can be simultaneous: a. Activation of the plasma reactor: A plasma reactor — which has at least one core — preferably three cores — is started with creating a plasma matter (11), inside a basic centrally positioned core (fig.3: core b.), where the plasma provokes at least one gravitational magnetic field that has gravitational effects on at least the next encircling core (fig. 3: core C), b. Feed of material(s): At least one atomic or molecular material — called ‘old material’ - to be disintegrated, decontaminate, cleaned, filtered or ..., i.e. blood, exhaust gas, ... is introduced (feed) in at least one of the outer — lower temperature - cores of the plasma reactor (61), like in figure 3. CO2 gas (28) is feed into core d., c. Plasma transport: A part of the plasma is feed to at least one of the outer cores — having the correct gravitational and temperature conditions - to create atomic (H) and molecular hydrogen (H2), and the atomic hydrogen (H) can possible wise be re-feed to the plasma area as re-fuel waa tte matter, d. H2 transport to an outer core: The H2 is feed to a core that contains at least old material which atomic and/or molecular elements are combined with at least H or H2, (i.e. recycling of CO2 where H2 can interact with CO2 leading to separation and creation of H2O (normal, light or heavy) and C (Carbon) and O (Oxygen) in atomic or molecular state, e. Transport of new materials. The new materials — like H2O — then can be siphoned outside the reactor and/or are further treated inside other cores or special cavities for production of other matters; (see fig. 3 for these steps), f. Additional process for using new materials: New materials can be feed to other additional cores or sectors (19A and 19B) of the same core which their interaction or