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10 15 20 25 30 35 40 45 50 20 namely: compression, heat and one magnetic field (22A, 22B) - leading in first instance to the production of energy -, and the reactor is equipped with at least: a. one solid separation wall (12A) or a dynamic separation/transitions layer which can be composed by any state of matter - i.e. a layer formed by liquid plasma, metallic material vapor (i.e. K, Na, Ca, Mg), liquid metallic element layer gas, molecular matter, solid matter and/or by electromagnetic fields - in the reactor cavity, and b. at least one transportation means (i.e. channels 13A, 74) doors 72A, ports 13B, mouths, valves 13C, slides 13E, pumps, open/closing system, gates, etc.) that can be located everywhere in the reactor (i.e. in a central column 14, in a separation wall 13D and 25, or in the reactor embodiment 10B) and/or connected with the reactor, i. to transport relevant elements (i.e. hydrogen gas 17 to core B in fig. 1 and fig 2) from outside to the inside of the appropriate core(s) of the reactor; ii.to transport plasma (11), atomic and/or molecular elements from one inside cavity (20) or core to one or more other internal cavities (21, 19A and 19B) or cores for the purpose to change compositional properties of such elements (26) by the environmental conditions (i.e. gravitational, magnetic, electromagnetic, temperature, contact with other inserted or present atomic or molecular elements, ...), iii. to transport elements to specific areas (19C) - i.e. having another temperature degree - inside one core (fig.1: core E), iv. to transport recombined elements outside (23) the reactor, i.e. to a decompression and/or a separation unit 24, a storage means 15, v.to transport plasma or recombined elements to one or more other plasma reactors with similar or different properties, and/or to a twin/multi-reactor (fig.7), and in which, by repositioning atomic and/or molecular elements in and between reactor cores or reactors (fig. 7), several transformation processes of the elements are possible, such as: c. the decomposition of existing molecular elements (i.e.CO2 ) to by conditions iv. atomic elements, the combination of atomic and/or molecular elements to differently new composed molecular elements, either in zero-gravitational conditions or in specific controlled gravitational conditions within the core(s), e. creation of the condition for atomic welding between the elements inside of at least two cores, creation of the Dark Matter which can be withdrawn from the combination of the two matters from at least one cores, which can be collected in gravitational reactors (in 3 x 120° combination gravitational reactors) for space travel and motion, and from which the reactor cores (fig.1: A, B, C1, C2, D, E) can have each - internally and between them - other conditions and/or dimensions, size and structure - such as: 7), several transformation