Measuring general relativity effects in a terrestrial lab by means of laser gyroscopes

arxiv: 1310.2022 · v1 · pith:54NVFROHnew · submitted 2013-10-08 · 🌀 gr-qc · physics.ins-det

Measuring general relativity effects in a terrestrial lab by means of laser gyroscopes

N Beverini , M Allegrini , A Beghi , J Belfi , B. Bouhadef , M Calamai , G Carelli , D Cuccato

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A Di Virgilio E Maccioni A Ortolan A. Porzio R Santagata S Solimeno A Tartaglia

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classification 🌀 gr-qc physics.ins-det

keywords generalgyroscopeslasermeasuringrelativityterrestrialaccuracyachieve

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GINGER is a proposed tridimensional array of laser gyroscopes with the aim of measuring the Lense-Thirring effect, predicted by the General Relativity theory, in a terrestrial laboratory environment. We discuss the required accuracy, the methods to achieve it, and the preliminary experimental work in this direction.

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Measuring general relativity effects in a terrestrial lab by means of laser gyroscopes

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