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10 15 20 25 30 35 40 45 10 the same radiations source(s) inside one or more cavities in/off the embodiment, possible wise by nen ated endian n n4h All abovementioned interactions create on one hand inside the core between the initial and new material(s) and plasma - but also on the other hand between them and the inside material(s) of the reactor itself and it’s proper potency relationship to the its ground level - a multitude of differences of electric potency (voltage) and of internal electrons movements (current) inside the closed reactor. These current(s) can be collected, from the any levels of the reactor containment, this being liquid gas or plasma _ or the embodiment itself, by at least one terminal (118, 178), but preferable collected by a plurality of terminals (Fig. 21) from which the heads of the electrodes are well distributed over the inside of the reactor cavity or of the reactor cavities. Now a new method and production process is disclosed to make a reactor (as described in claim 14), that is battery-like (i.e. shaped as a 9V battery after ISO norms), where the opening means (as described in claim 1, point c.) and the related filling process, and the closure and fixed by the closing means (as described in claim 1, point d.) all happen during the manufacturing process of the internal parts. In the next step - the internal parts are covered by covering means, which finally results is a battery- type of reactor that is completely close, except for the terminal means. A method and production process is shown to make a plasma reactor, as described in claim 14, that is battery-like with refilling possibilities (i.e. shaped as a 9V battery after ISO norms), where the opening means (as described in claim 1, point c.) and the related filling process, and the closure and fixated by the closing means (as described in claim 1, point d.) all happen during the manufacturing process of the internal parts, where additionally refilling means are integrate in the concept which make it possible to refill at all times the reactor when additional initial material(s) is necessary, and then - in the next step - the internal parts are covered by covering means, which finally results is a battery-type of reactor that is completely close, except for the terminal means and the external refilling means. Further a method and chemo-nuclear process is disclosed to create in a closed reactor, as described in claims 1 and 2, self-sustaining energetic processes of decay’s and recombination of and between nuclear source(s), various internal materials (initial material(s), new materials, new isotopes and fundamental particles, where in said reactor for example next process-steps or similar process-steps happen: “°K itself - through beta decay - becomes a source of radioactive material creating beta radiation, which through decay becomes a Ar gas, where the beta decay itself - with in interaction of the Ar gasses within the cavity created by previous decays of K - leads to the release of extreme EUV (this method created radioactive isotopes. I otedeee atta cee ete ne ee