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The Possibility to Construct a Graser – High Sensitivity Gravitational Wave Detector by Using the Electrogravitic Property of Dielectric Materials

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Astronomers tried to detect gravitational waves, which are generated by the movement of massive astronomical bodies. However, it is very difficult to detect gravity waves by using conventional devices. Leon Brillouin proposed a concept of Graser, that is a powerful amplifying device for gravity waves, which can enable us to measure gravity waves, their frequencies, their velocities, and how they propagate. According to the theory by Boyko Ivanov, the gravitational field can be induced by an external electric field for a dielectric material. By studying Ivanov’s formulas, the author has obtained the result that a gravitational wave detector consisting of a dielectric material, which has a higher sensitivity and a smaller size compared with the conventional gravitational detector, can be constructed.
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Keywords: Biefeld-Brown effect; Dielectric material; Electrogravitics; Graser; Gravitational waves; Pulsar

Document Type: Research Article

Publication date: December 1, 2013

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  • Recent Patents on Space Technology publishes review/research articles, and guest edited thematic issues on recent patents in the field of Space Technology. A selection of important and recent patents on Space Technology is also included in the journal. The journal is essential reading for all researchers involved in the fields of Space Technology. Research areas covered by the Journal are: Space exploration , Space colonization, telemetry, satellite television, weather forecasting, Global Positioning System (GPS), Satellite, Asteroid mining, Spacecraft and Aerobot.
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