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10 15 20 25 30 35 40 45 13 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 reactor is suspended within, which can create two or more different electromagnetic waves of different frequencies caused by the same constant strength or varying strength of the magnetic field caused by the inner core(s), what for example results in the creating of two different color lights or one color light and one heating radiation, or for optical communication by fiberglass or similar, or the use in light computers, for a new computer-language, or for satellite communication; 20. Light bulb, as described in claim 1, light tube or lighting system for nano technology or nano communication using a nano sized reactor which is in multi-layer condition where the light from the interaction of the charges of proton or electrons using the magnetic field of the reactor to generate light for nano technology, for nano communication systems or for nano lighting and communication connections; 21. Lighting devices, as described in claim 1, in which inside the core of their reactor using a microwave-lamp as source to create scintillation leading to creation of for example Extreme Ultra Violet lighting (i.e. used in lithography); 22. Lighting devices, as described in claim 1, which can have replaceable covers to have a different radiation effect (i.e. IR, red light, etc.) after seed L. wish; 23. Lighting devices, as described in claim 1, which have an inner rotative core that creates at least a minimal rotation of the inner material(s), to Aeental ata aen ating. 24. Lighting devices, as described in claim 1, which have the same types of fitting as traditional lamps, or existing |SO-norms; 25. Micro-plasma-reactor, as described in claim 1, can be placed in any environment, i.e. a greenhouse, where the interaction of the charged particles within that environment and the magnetic field of the reactor could create the conditions necessary - i.e. for growth of plants or decontamination of matters - which not necessary can create visible light or tangible heat but i.e. invisible electromagnetic light; avoid stagnation;