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10 15 20 25 30 35 40 45 28 10. Plasma reactor, as described in claim 1, where a cavity(is) positioned mount could be placed - by means of attachment or a specific bracketing position without connection to the central column - for the creation of elements could be created within the core where the created material could be feed to outside of the core on a continuous (i.e. nano technology wire, creation of H2O) or single use production of the material (i.e. single diamond crystal); 11. Plasma reactor, as described in claim 1, of which at least one core (fig.1:C) has at least two separate inner-core chambers (fig1: C1 and C2) , i.e. to create identical gravitational and thermal conditions for different atomic and/or molecular elements; 12. Method by which in the same plasma reactor two or more separate inner-core chambers (fig1: C1 and C2) can be accommodated to create identical conditions like gravitational and thermal conditions for different atomic and/or molecular elements, processed at the same time or in sequence from one inner-core chamber to (13F) another or to other core(s); 13. Plasma reactor, as described in claim 1, which has at least one spiral- shaped core (51, 80) — fixed or rotative within any cavity of the reactor - which makes it possible to create an internal pressure progress and/or temperature difference inside such specific core (fig.8: core B) leading to the creation of a variable gravitational field (i.e. for plasma gravitational distillation) or variable magnetic field(s)(85A, 85B, 85C) within the core(s) or at the boundaries of the core(s) (i.e. for alternating current or power supply due to effect like a wave magnetic field necessary for power generation in turbine); 14. Method where in a plasma reactor, which has at least one spiral- shaped core (51, 80) — fixed or rotative within any cavity of the reactor - which makes it possible to create an internal pressure progress and/or temperature difference inside such specific core (fig.8: core B) leading to the creation of a variable gravitational field (i.e. for plasma gravitational distillation) or variable magnetic field(s)(85A, 85B, 85C) within the core(s) or at the boundaries of the core(s) (i.e. for alternating current or power supply due to effect like a wave magnetic field necessary for power generation in turbine); 15. Plasma reactor, as described in claim 1, being an energy and/or gravity producing and separation/synthesis system, method, concept and technology whereby in a reactor a chain of energetic events is created via a rotative magnetic initiation of a basic ionization of a gas (i.e. hydrogen) or other matters, which then triggers a controllable chain of energy transfers (so called scintillation) to the next following