Astronomy (Feb 2024)

Possible Tests of Fundamental Physics with GINGER

  • Giuseppe Di Somma,
  • Carlo Altucci,
  • Francesco Bajardi,
  • Andrea Basti,
  • Nicolò Beverini,
  • Salvatore Capozziello,
  • Giorgio Carelli,
  • Simone Castellano,
  • Donatella Ciampini,
  • Gaetano De Luca,
  • Angela D. V. Di Virgilio,
  • Francesco Fuso,
  • Francesco Giovinetti,
  • Enrico Maccioni,
  • Paolo Marsili,
  • Antonello Ortolan,
  • Alberto Porzio,
  • Matteo Luca Ruggiero,
  • Raffaele Velotta

DOI
https://doi.org/10.3390/astronomy3010003
Journal volume & issue
Vol. 3, no. 1
pp. 21 – 28

Abstract

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The GINGER (gyroscopes in general relativity) project foresees the construction of an array of large frame ring laser gyroscopes, rigidly connected to the Earth. Large frame ring laser gyroscopes are high-sensitivity instruments used to measure angular velocity with respect to the local inertial frame. In particular, they can provide sub-daily variations in the Earth rotation rate, a measurement relevant for geodesy and for fundamental physics at the same time. Sensitivity is the key point in determining the relevance of this instrument for fundamental science. The most recent progress in sensitivity evaluation, obtained on a ring laser prototype, indicates that GINGER should reach the level of 1 part in 1011 of the Earth’s rotation rate. The impact on fundamental physics of this kind of apparatus is reviewed.

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