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10 15 20 25 30 35 40 45 11 known as scintillation of the Ar gas) magnetic waves, and this energy will lead to ionization of the hydrogen atoms or molecules, leading to the creation of plasma (i.e. H*) and free electrons, where the hydrogen plasma can interact with the K itself to acquire an electron and become a hydrogen atom or a molecule again, where the free electron from the hydrogen will release it’s energy (photon) to the Ar gas which is created, and for the electron to be able to be collected at the Ar level of mixture for purposes of current supply, creating this way in the closed reactor cavity(ies) for a given time - merely depending of the half-life time of the nuclear source(s) - a specific chemo-nuclear balancing ecological environment of preferred materials and state of matters. If stronger radioactive sources will be used there may be the need to apply protection means, as described in claim 14 - point g - which may consists of at least one concrete layer that fully covers the reactor embodiment and where only transport means (terminal) for the electrons (current) leave the total volume, as shown in Fig 27. A specific method and chemo-nuclear process to decay and recombine (in temperature independent way) specific elements of the periodic table and their isotopes is disclosed for our plasma reactors. Before the start of the processing - at least two different composed initial material(s) are inserted/taken-in by insertion means at different locations (cavities) of a reactor, as described in claim 1 and 2. In one or in each location specific preferred chemical processes will occur which lead to “a number of new atomic and molecular elements of the periodic table and their isotopes which did not existed in the initial state in the environment or which were not present in these quantities’, as described in claim 1 and 2. In example there can be in one location the creation of plasma and liquid helium, and in another location the creation of liquid metal, where then - in the next step - portions or the totality of the content of these different cavities can be brought together - by transported means - for further preferred steps of processing, either in new location(s), either in one of the already used locations, either in all already used locations. Fig 28. shows how in the lower reactor (280) plasma (283A) is created by the various interactions of the nuclear sources with liquids and gasses, and then (283B) passes through channels (282) to the upper cavity (281, 283C) where is becomes atomic hydrogen. A new method and chemo-nuclear process is disclosed to create in a reactor, as described in claim 1 and 2, and after the method and chemical process as described in claim 1 and 2, and being part of “a number of new atomic and molecular elements of the periodic table and their isotopes which did not existed in the initial state in the environment or which were not present in these quantities”, as described in claim 1 and 2, at least one radioactive isotope, like °T, ‘Be, '*C, *°K, °°v, ®’Rb, '°Te, '*La, ‘4?Ce,