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10 15 20 25 30 35 40 45 50 71 57. Reactor, as described in claims 2 and 47 or in claims 2, 48, 49, 50 and 51, in which a central core (fig.1:A, 27) or chamber, called zero- or low-gravity area - is positioned in the central area of the reactor - encircled by at least one core (fig.2:B) that holds the plasma (11) - that is used to generate atomic elements, molecular elements and/or molecules (i.e. diamonds 30, conductive amino acids, etc.) in zero-gravity or low-gravity (31) or any magnetic condition in that core or chamber; 58. Reactor, as described in claim 2 and 47 or in claims 2, 48, 49, 50 and 51, which has at least one regular or irregular torus-type (non-spherical, ring shaped, fig.1:E)(19D) core which can encircle or be encircled by a spherical core or by torus-core which one or the other is in positional of a gravitational field force or a magnetic field force; 59. Reactor, as described in claims 2 and 47 or in claims 2, 48, 49, 50 and 51, which has at least one irregular core (i.e. non-spherical, ring shaped, fig.1:E, asymmetrical 52)(19C and 19D, 62, 63) with other dimensional properties (16) with the purpose to create in the same core different environmental conditions (i.e. inner zones with varying temperature), for example to generate or collect specific molecular elements; 60. Reactor, as described in claims 2 and 47 or in claims 2 and 48, 49, 50 and 51, where a cavity(is) positioned mount could be placed - by means of attachment or a specific bracketing position without connection to the central column - for the creation of elements could be created within the core where the created material could be feed to outside of the core ona continuous (i.e. nano technology wire, creation of H20) or single use production of the material (i.e. single diamond crystal); 61.Reactor, as described in claim 2 and 47 or in claims 2, 48, 49, 50 and 51, of which at least one core (fig.1:C) has at least two separate inner-core chambers (fig1: C1 and C2) , i.e. to create identical gravitational and thermal conditions for different atomic and/or molecular elements; 62. Method by which in the same plasma reactor, , as described in claim 2 and 47 or in claims 2, 48, 49, 50 and 51, two or more separate inner-core chambers (fig1: C1 and C2) can be accommodated to create identical conditions like gravitational and thermal conditions for different atomic and/or molecular elements, processed at the same time or in sequence from one inner-core chamber to (13F) another or to other core(s); 63. Reactor, as described in claim 1, claim 2, claim 47 or in claims 48, 49, 50 and 51, which has at least one spherical-shaped core or other shapes (51, 80) - fixed or rotational within any cavity of the reactor - which makes it possible to create an internal pressure progress and/or temperature difference inside such specific core (fig.8: core B) leading to the creation of a variable gravitational field (i.e. for plasma gravitational distillation) or variable magnetic field(s)(85A, 85B, 85C) within the core(s) or at the boundaries of the core(s) (i.e. for alternating current or power supply due