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10 15 20 25 30 35 40 45 A micro-plasma-reactor can have in the embodiment a mechanical (like watch system, fly-wheel type) and/or electro-magnetic rotational mechanism (16B)(i.e. at 250 rpm) which is connected with (13) or making a whole (16A) with at least one central column (27, 16D) in which at least one container (15, 37) is located that can release precise quantities of the contained matter (i.e. radio-active material or liquid Helium) into the reactor chamber. But a micro-plasma-reactor can have also a fixed central column with on the tip rotational means which pumps through at least one channel — when needed in the plasmatic process — precise quantities of gas or other matter into the reactor chamber from at least one container in the embodiment. The central column may have at least one channel and with on the tip means of ionization (i.e. a micro-wave emitter, lamps, etc.). A micro-plasma-reactor which has no internal rotating system can be started — by hand (i.e. pushing a spring, screwing, etc.), or magnetically, or wireless, by a Integrated circuit (16C) and/or by a timing mechanism - by the opening or breaking of a closed internal container (15) which holds materials for scintillation of other material. This will activate the reactor. A micro-plasma-reactor will have an inside-chamber size of 50,000 cm3 maximum, and the smallest micro-plasma-reactor, has an inside-chamber - — at. size in nano-dimensions. The embodiment (11) of a micro-plasma-reactor can be made in any shape and of any material and combination, after the intentional use. We claim here also a new type of light bulbs and light tubes which are in fact micro-plasma-reactors. These new lighting devices will have in one version at the outside a transparent layer material (14)(i.e. glass) and inside an inert gas — like Neon -, where the charged particles of the gas create an inner circulation using the magnetic field (17A) which created in the core of the reactor to excited the charged particles (18A) for them to glow (18B). In another versions they have at the outside a double glass wall with between the glass layers of an inert gas — like Neon or any other material - , where interaction between the magnetic fields created in the reactor and the charged particles create inside the glass chamber excitation leading to the creation of light or heat from the boundary of the system (i.e. IR, blue light, heating elements, etc.). Another version is that at the outside at least two areas of the reactor parameter could be covered by at least two different, two identical or a mixture of matters, possible wise in different states (such as other temperature, variation in pressure, ) — which can be encapsulated (i.e. in layers, in tubes, or any kind of containments like square boxes, hexagons, or adjacent to each other), coated, laminated, glued, sprayed or the heating in the surrounding area or vicinity of the system.