FIELD: communications engineering; data transmission over primarily long and superlong distances. SUBSTANCE: data signal is shaped and emitted due to variable magnetic field with vector potential positioned at 90 to 270 deg. to cosmological electromagnetic vector potential that acts on magnetic bodies placed in vicinity of lower values of potential equal to sum of above-mentioned vector potentials; signal reception is provided by recording activity of radioactive decay of substance. Augmenting of transmitted signal is provided by polarizing material bodies in vicinity of reduced values of total potential and orienting magnetic moments of atoms and spins of elementary particles of body perpendicular to direction of cosmological electromagnetic vector potential. Device implementing this method (data transmission system) has data signal transmitter in the form of magnetic field source and material body placed in this field, as well as signal receiver in the form of container of radioactive material possessing beta-decay ability and incorporating beta-decay activity sensor, such as electron counter, coupled with analyzing system for signals coming from activity sensor and fro discriminating data signal. Transmitter magnetic field source may be made in the form of square current winding and material body, in the form of rod arranged along one of winding sides and pointing with at least one of its ends to locating area of data signal receiver. Transmitter rod may be made in the form of string with its diameter-to-length ratio not over 0.001 and made of material having high specific gravity. EFFECT: improved range and speed of data signal transmission; simplified design of data transmission device. 6 cl, 3 dwg
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Authors
Dates
1997-12-20—Published
1993-12-21—Filed