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10 15 20 25 30 35 40 45 39 ¢ by means of feed through at least one central column (93), ¢ by means of encapsulation (95A) of the scintillation material (94) in at least one core, ¢ by means of creating and controlling the extend of the scintillation by direct introduction of the scintillation material through the control of introduction of the radioactive material (91) necessary for ionization, ¢ by combination of above, where the scintillation material and/or the radioactive material could be fixed to the body (95A) of the core or free in motion (103) or in its own cavity (92) or floating (101, 102) within the core where the radioactive material necessary for the creation of the scintillation could be introduced through insertion (91) or by means of floating matter (103) or material (i.e. spheres partly 102 or fully 101 coated with radioactive material which their position can be controlled by means of magnets 107 embedded on the core 109, and/or by withdraw of the scintillation material in cavities 106 accommodated in the core wall), or molecular powders) into the transparent (95A and 95B) encapsulating scintillation material for the purpose of the ionisation of the hydrogen (atom or molecular) or any other element within the core, in conjunction with introduction of metallic, semi- metallic and/or metallic properties (97) of other elements within that core which will lead to production of electric current — which can be withdraw (108) by wire (105) or conductive material (like film or covering parts) in that core (109), and leading to the creation of magnetic fields within that core, which the interaction of the magnetic field created in two cores can lead to creation of gravity and production of heat from at least one core (96A and 96B, 100 or 109), which can be used in plasma batteries (Fig. 10) which are independent of orientation or positioning of the battery (vertical, horizontal, upside-down), or for as a backup in aero/space industry for when the craft goes in spiral and the mean plasma reactor dysfunctions, or as in figure 9 the large scale of the reactor can be used in space technology for the creation of gravity inside the space craft or anti-gravity for the craft, and energy production, and — possible wise simultaneous - various purposes as described in claim 1 and previous patents (patent application EP5447221 and EP5447236); We claim also the method for the use and/or positioning of scintillation material(s) in at least one plasma reactor (90) with at least one separation wall and/or a core wall that can be multi-layered (i.e. laminated, deposited, ...) aS a whole or partly, i.e. embedded coated elements into glass (95A) or any state of matter contained within the glass containment (for example the containment to be placed on a flat surface 99 within a full core or any portion of a core, where the plate could be rotational to create the centrifuge condition or the centrifuge could be achieved by pumping or magnetic field rotation of the elements within the core) where according to the claim 1.a.v (static reactor) from patent application EP5447221.2, the