Measuring gravitomagnetic effects by a multi-ring-laser gyroscope

F. Bosi; G. Cella; A. Di Virgilio; A. Ortolan; A. Porzio; S. Solimeno; M. Cerdonio; J. P. Zendri; M. Allegrini; J. Belfi; N. Beverini; B. Bouhadef; G. Carelli; I. Ferrante; E. MacCioni; R. Passaquieti; F. Stefani; M. L. Ruggiero; A. Tartaglia; K. U. Schreiber; A. Gebauer; J. P.R. Wells

doi:10.1103/PhysRevD.84.122002

Measuring gravitomagnetic effects by a multi-ring-laser gyroscope

F. Bosi, G. Cella, A. Di Virgilio, A. Ortolan, A. Porzio, S. Solimeno, M. Cerdonio, J. P. Zendri, M. Allegrini, J. Belfi, N. Beverini, B. Bouhadef, G. Carelli, I. Ferrante, E. MacCioni, R. Passaquieti, F. Stefani, M. L. Ruggiero, A. Tartaglia, K. U. SchreiberA. Gebauer, J. P.R. Wells

Research Institute Satellite Geodesy

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152 Scopus citations

Abstract

We propose an underground experiment to detect the general relativistic effects due to the curvature of space-time around the Earth (de Sitter effect) and to the rotation of the planet (dragging of the inertial frames or Lense-Thirring effect). It is based on the comparison between the IERS value of the Earth rotation vector and corresponding measurements obtained by a triaxial laser detector of rotation. The proposed detector consists of six large ring lasers arranged along three orthogonal axes. In about two years of data taking, the 1% sensitivity required for the measurement of the Lense-Thirring drag can be reached with square rings of 6 m side, assuming a shot noise limited sensitivity (20prad/s/√Hz). The multigyros system, composed of rings whose planes are perpendicular to one or the other of three orthogonal axes, can be built in several ways. Here, we consider cubic and octahedral structures. It is shown that the symmetries of the proposed configurations provide mathematical relations that can be used to ensure the long term stability of the apparatus.

Original language	English
Article number	122002
Journal	Physical Review D - Particles, Fields, Gravitation and Cosmology
Volume	84
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevD.84.122002
State	Published - 9 Dec 2011

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Bosi, F., Cella, G., Di Virgilio, A., Ortolan, A., Porzio, A., Solimeno, S., Cerdonio, M., Zendri, J. P., Allegrini, M., Belfi, J., Beverini, N., Bouhadef, B., Carelli, G., Ferrante, I., MacCioni, E., Passaquieti, R., Stefani, F., Ruggiero, M. L., Tartaglia, A., ... Wells, J. P. R. (2011). Measuring gravitomagnetic effects by a multi-ring-laser gyroscope. Physical Review D - Particles, Fields, Gravitation and Cosmology, 84(12), Article 122002. https://doi.org/10.1103/PhysRevD.84.122002

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title = "Measuring gravitomagnetic effects by a multi-ring-laser gyroscope",

abstract = "We propose an underground experiment to detect the general relativistic effects due to the curvature of space-time around the Earth (de Sitter effect) and to the rotation of the planet (dragging of the inertial frames or Lense-Thirring effect). It is based on the comparison between the IERS value of the Earth rotation vector and corresponding measurements obtained by a triaxial laser detector of rotation. The proposed detector consists of six large ring lasers arranged along three orthogonal axes. In about two years of data taking, the 1% sensitivity required for the measurement of the Lense-Thirring drag can be reached with square rings of 6 m side, assuming a shot noise limited sensitivity (20prad/s/√Hz). The multigyros system, composed of rings whose planes are perpendicular to one or the other of three orthogonal axes, can be built in several ways. Here, we consider cubic and octahedral structures. It is shown that the symmetries of the proposed configurations provide mathematical relations that can be used to ensure the long term stability of the apparatus.",

author = "F. Bosi and G. Cella and {Di Virgilio}, A. and A. Ortolan and A. Porzio and S. Solimeno and M. Cerdonio and Zendri, {J. P.} and M. Allegrini and J. Belfi and N. Beverini and B. Bouhadef and G. Carelli and I. Ferrante and E. MacCioni and R. Passaquieti and F. Stefani and Ruggiero, {M. L.} and A. Tartaglia and Schreiber, {K. U.} and A. Gebauer and Wells, {J. P.R.}",

year = "2011",

month = dec,

day = "9",

doi = "10.1103/PhysRevD.84.122002",

language = "English",

volume = "84",

journal = "Physical Review D - Particles, Fields, Gravitation and Cosmology",

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Bosi, F, Cella, G, Di Virgilio, A, Ortolan, A, Porzio, A, Solimeno, S, Cerdonio, M, Zendri, JP, Allegrini, M, Belfi, J, Beverini, N, Bouhadef, B, Carelli, G, Ferrante, I, MacCioni, E, Passaquieti, R, Stefani, F, Ruggiero, ML, Tartaglia, A, Schreiber, KU, Gebauer, A & Wells, JPR 2011, 'Measuring gravitomagnetic effects by a multi-ring-laser gyroscope', Physical Review D - Particles, Fields, Gravitation and Cosmology, vol. 84, no. 12, 122002. https://doi.org/10.1103/PhysRevD.84.122002

TY - JOUR

T1 - Measuring gravitomagnetic effects by a multi-ring-laser gyroscope

AU - Bosi, F.

AU - Cella, G.

AU - Di Virgilio, A.

AU - Ortolan, A.

AU - Porzio, A.

AU - Solimeno, S.

AU - Cerdonio, M.

AU - Zendri, J. P.

AU - Allegrini, M.

AU - Belfi, J.

AU - Beverini, N.

AU - Bouhadef, B.

AU - Carelli, G.

AU - Ferrante, I.

AU - MacCioni, E.

AU - Passaquieti, R.

AU - Stefani, F.

AU - Ruggiero, M. L.

AU - Tartaglia, A.

AU - Schreiber, K. U.

AU - Gebauer, A.

AU - Wells, J. P.R.

PY - 2011/12/9

Y1 - 2011/12/9

N2 - We propose an underground experiment to detect the general relativistic effects due to the curvature of space-time around the Earth (de Sitter effect) and to the rotation of the planet (dragging of the inertial frames or Lense-Thirring effect). It is based on the comparison between the IERS value of the Earth rotation vector and corresponding measurements obtained by a triaxial laser detector of rotation. The proposed detector consists of six large ring lasers arranged along three orthogonal axes. In about two years of data taking, the 1% sensitivity required for the measurement of the Lense-Thirring drag can be reached with square rings of 6 m side, assuming a shot noise limited sensitivity (20prad/s/√Hz). The multigyros system, composed of rings whose planes are perpendicular to one or the other of three orthogonal axes, can be built in several ways. Here, we consider cubic and octahedral structures. It is shown that the symmetries of the proposed configurations provide mathematical relations that can be used to ensure the long term stability of the apparatus.

AB - We propose an underground experiment to detect the general relativistic effects due to the curvature of space-time around the Earth (de Sitter effect) and to the rotation of the planet (dragging of the inertial frames or Lense-Thirring effect). It is based on the comparison between the IERS value of the Earth rotation vector and corresponding measurements obtained by a triaxial laser detector of rotation. The proposed detector consists of six large ring lasers arranged along three orthogonal axes. In about two years of data taking, the 1% sensitivity required for the measurement of the Lense-Thirring drag can be reached with square rings of 6 m side, assuming a shot noise limited sensitivity (20prad/s/√Hz). The multigyros system, composed of rings whose planes are perpendicular to one or the other of three orthogonal axes, can be built in several ways. Here, we consider cubic and octahedral structures. It is shown that the symmetries of the proposed configurations provide mathematical relations that can be used to ensure the long term stability of the apparatus.

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U2 - 10.1103/PhysRevD.84.122002

DO - 10.1103/PhysRevD.84.122002

M3 - Article

AN - SCOPUS:84855323718

SN - 1550-7998

VL - 84

JO - Physical Review D - Particles, Fields, Gravitation and Cosmology

JF - Physical Review D - Particles, Fields, Gravitation and Cosmology

IS - 12

M1 - 122002

ER -

Measuring gravitomagnetic effects by a multi-ring-laser gyroscope

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