Page Content (OCR)
10 15 20 25 30 35 40 45 46 64. Method where in a plasma reactor, which has at least one spiral- shaped core (51, 80) — fixed or rotational 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 he deeb al. in turbine); 65. Energy and/or gravity producing and separation/synthesis system, method, concept and technology, whereby in a reactor, as described in claim 2, claim 47 or in claims 48, 49, 50 and 51, a chain of energetic events is created via a rotational 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 layer(s) of introduced gasses (i.e. He, Ne, Ar, Kr, Xe) and all other introduced elements of the periodic table (i.e. Li, Be, K, Ca, Ti, ...Pt, etc.) and/or their introduced molecule combinations (i.e. vapor), with the possibility to injection such materials inside the reactor chamber(s) or core(s) (18), i.e. liquid metallic elements, and which internal effects (such as heat, compression, electromagnetic fields, magnetic gravitational fields, temperature differences, etc.) will be different in the cores and make it possible to rearrange the atomic and/or molecular compositions of the elements by transportation from one core to one of more other core(s); 66. Reactor, as described in claim 47 or in claims 48, 49, 50 and 51, called the twin-reactor or multi-reactor possessing their own magnetic and gravitational field (fig. 6 and 7) at the same time as overcoming weightlessness in the craft, which has at least two plasma areas, and/or at least two separate or interconnected columns rotating — partly (i.e. only the head rotates 78) or as a whole -_ individually or simultaneously within at least one static or centrifuged core(s), feed or interconnected - preferable separated by a separation wall (72B) with at least one accessible port (72A) - from at least one core of one side to another, for the use of and the production of new elements and materials; 67. Reactor, as described in claim 47 or in claims 48, 49, 50 and 51, which has at the outside of the reactor at least one layer and/or zone of one or more material(s) that will provoke or create charged particles which the interaction of the particles with the magnetic field created in the core of the reactor can create lighting in any