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10 15 20 25 30 35 40 45 47 frequencies, or microwave production or heating in the surrounding area or vicinity of the system needed for fusion or atomic welding of two or more similar or different elements of the periodic table, for example where one reactor (70A) provides the plasma and another reactor (70B) provides the energy necessary for atomic and/or molecular fusing or welding; the 68. A method to create in the same plasma reactor (multi-reactor) at least two plasma areas (70A and 70B), each having their own magnetic (76) and gravitational field (fig. 6 and 7) at the same time as overcoming weightlessness in the craft, and/or at least two separate or interconnected columns (79A, 79B) rotating — partly (i.e. only the head 78) or as a whole (60) - individually or simultaneously within at least one static or centrifuged (73) core(s), feed or interconnected - preferable separated by a separation wall (72B) with at least one accessible port (72A) from at least one core (71A) of one side to another (71B) - for the use of and the production of new elements and materials, and where each of the incorporated plasma areas can have their own function, such as one plasma can have an outer core with 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 frequencies, or microwave production or heating in the surrounding area or vicinity of the system needed for fusion or atomic welding of two or more similar or different elements of the periodic table, for example where one reactor provides the plasma and another reactor provides the energy necessary for atomic and/or molecular fusing or welding; 69. Reactor, as described in claim 47 or in claims 48, 49, 50 and 51, (fig. 6 and 7) where the central columns can be either separate (like the single column in fig.1) or joined, either parts (arms 79A and 79B connected to 14) of the same basic column, and of which for mentioned arms and their sub-parts may have different dimensions (i.e. length, height, diameter, speed of the rotation of the head, number of channels, content of channels, etc.), further called the twin-reactor or multi-reactor; 70. Reactor, as described in claim 47 or in claims 48, 49, 50 and 51, having in or connected to the embodiment a mechanical (cfr. Watch system, fly-wheel type) and/or electro-magnetic rotational mechanism (i.e. at 250 rpm) which is connected with or making a whole with at least one central column (14) in which at least one container is located that can release precise quantities of the