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10 15 20 25 30 35 40 45 50 more of next devices or sources, like a ultra-violet source, a electromagnetic source (i.e. an inside magnet or coil), a heat source, a system which introduces pressure to an ambient condition, electronic device(s) or components (like a capacitor, a battery, a resonance circuit, etc.) and/or motion means. But where the reactor is still able to perform preferred reactions — explicitly all interactions and reactions as described in claim 1 - such as the creation of plasma and of atomic hydrogen - even if all above mentioned devices or sources are not activated, but where said devices or sources may - being activated - accelerated the preferred processes or may alter partially the outcome, such as enlarge the output(s). So even if the reactor has extra intervening means, he still can provide the preferred interactions without using these extra tools. So whatever reactor concept is described in this patent application, these reactors will always be able to perform the interactions and energies and phenomena as described in our first claim. But, by using certain tools, like using an external motion mechanism we can create larger magnetic fields. Next we describe that by the right choice of material within one or more cavities and/or the correct choice of the containment(s) itself, some of the energy - released through scintillation - will be released in visible electromagnetic waves, like the white light, blue light, etc, which these lights could be of mono-magnetic waves of higher order which this itself is/can be of the order of a laser, where this beam itself can become a source of ionization of the initial material(s) within the containment or the containment material itself, for example such laser energy be made to ionize the hydrogen atoms leading to the creation of plasma and current (see Fig. 39A and 39B). The method to create scintilla and EUV in a TIPI reactor is disclosed later in the description. We claim next the Method and the chemo-nuclear, bio-nuclear and/or bio-chemo- nuclear process to synthesize - under specific conditions of composition of initial material(s) and nuclear source(s)(such as alpha and/or beta), and controllable sub-sequential process steps - to generate new desired atoms and molecules in the core, for example creation of new stable material(s), which are not made available by the prior art. As example we can create atoms of the element 113 (Uut) and 115 (Uup) of the Periodic table, where a shared free electron or the hydrogen plasma within the initial material in cooperation with already existing metal(s) in the mixture of isotope iron-58 in presence of the radioactive source decay to isotope iron-57, and isotope iron-57 in the same mixture with the loose of one electron becomes isotope iron-56, and with an availability of a free electron within the mixture by sharing of such free electron created by the ionization of hydrogen atom with isotope iron-56 and isotope iron-57 the element- 113 (Uut) can be achieved, knowing that due to the motion of the free electrons within the liquid and the availability of metal iron, the liquid within the containment does already posses a molecular magnetic field environment which can facilitate the inter-atomic welding (or sharing of the electron between two element within a magnetic environment) for the creation of element-113 (Uut), element-114 (Uuq) and element-115 (Uup) depending on the availability of the free isotopes elements at the point of sharing. As the new elements will be magnetically neutral these new atoms will be of the order of dark matter, even thou the element has a heavier mass than the