First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, France

First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, France

In the last few years, the performance of the cryogenic gravity instruments has been further improved by the development of a new generation of superconducting gravimeter (SG): the so-called iOSG which is a superconducting gravimeter designed for observatory purpose with a heavier sphere than previo...

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Main Authors: Rosat Séverine, Hinderer Jacques, Boy Jean-Paul, Littel Frédéric, Boyer Daniel, Bernard Jean-Daniel, Rogister Yves, Mémin Anthony, Gaffet Stéphane
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:E3S Web of Conferences
Online Access:http://dx.doi.org/10.1051/e3sconf/20161206003
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spelling doaj-a2f054381a0449a8a55d81f3a4c775aa2021-04-02T10:26:02ZengEDP SciencesE3S Web of Conferences2267-12422016-01-01120600310.1051/e3sconf/20161206003e3sconf-idust2016-06003First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, FranceRosat Séverine0Hinderer Jacques1Boy Jean-Paul2Littel Frédéric3Boyer Daniel4Bernard Jean-Daniel5Rogister Yves6Mémin Anthony7Gaffet Stéphane8Institut de Physique du Globe de Strasbourg, UMR 7516, Université de Strasbourg/EOSTInstitut de Physique du Globe de Strasbourg, UMR 7516, Université de Strasbourg/EOSTInstitut de Physique du Globe de Strasbourg, UMR 7516, Université de Strasbourg/EOSTInstitut de Physique du Globe de Strasbourg, UMR 7516, Université de Strasbourg/EOSTLSBB URLInstitut de Physique du Globe de Strasbourg, UMR 7516, Université de Strasbourg/EOSTInstitut de Physique du Globe de Strasbourg, UMR 7516, Université de Strasbourg/EOSTUniversité Côte d'Azur, CNRS, Observatoire de la Côte d'AzurLSBB URLIn the last few years, the performance of the cryogenic gravity instruments has been further improved by the development of a new generation of superconducting gravimeter (SG): the so-called iOSG which is a superconducting gravimeter designed for observatory purpose with a heavier sphere than previous SGs. The first iOSG (iOSG-024) has been installed in July 2015 at the LSSB low background noise underground research laboratory in Rustrel (France), funded by the EQUIPEX MIGA (Matter wave-laser based Interferometer Gravitation Antenna) project and by the European FEDER 2006-2013 “PFM LSBB – Développement des qualités environnementales du LSBB”. This instrument is operational since September 2015. We present the first tidal analyses of the 7-month time-varying gravity records of this newly installed instrument as well as the calibration results performed by parallel FG5 absolute gravity measurements. We also show the performances of iOSG-024 in terms of noise levels in the seismic (in the millihertz frequency range) band using a standardized procedure based on the computation of the residual power spectral densities over a quiet time period. The obtained noise levels are compared with other SG sites and with seismological reference noise models. The combination of the instrumental performance of the iOSG with the LSBB site properties makes this gravimetric station one of the quietest in the world, comparable to the lower sensor of the OSG-56 at BFO, at seismic frequencies.http://dx.doi.org/10.1051/e3sconf/20161206003
collection DOAJ
language English
format Article
sources DOAJ
author Rosat Séverine
Hinderer Jacques
Boy Jean-Paul
Littel Frédéric
Boyer Daniel
Bernard Jean-Daniel
Rogister Yves
Mémin Anthony
Gaffet Stéphane
spellingShingle Rosat Séverine
Hinderer Jacques
Boy Jean-Paul
Littel Frédéric
Boyer Daniel
Bernard Jean-Daniel
Rogister Yves
Mémin Anthony
Gaffet Stéphane
First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, France
E3S Web of Conferences
author_facet Rosat Séverine
Hinderer Jacques
Boy Jean-Paul
Littel Frédéric
Boyer Daniel
Bernard Jean-Daniel
Rogister Yves
Mémin Anthony
Gaffet Stéphane
author_sort Rosat Séverine
title First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, France
title_short First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, France
title_full First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, France
title_fullStr First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, France
title_full_unstemmed First analyses of the iOSG-type superconducting gravimeter at the low noise underground laboratory (LSBB URL) of Rustrel, France
title_sort first analyses of the iosg-type superconducting gravimeter at the low noise underground laboratory (lsbb url) of rustrel, france
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2016-01-01
description In the last few years, the performance of the cryogenic gravity instruments has been further improved by the development of a new generation of superconducting gravimeter (SG): the so-called iOSG which is a superconducting gravimeter designed for observatory purpose with a heavier sphere than previous SGs. The first iOSG (iOSG-024) has been installed in July 2015 at the LSSB low background noise underground research laboratory in Rustrel (France), funded by the EQUIPEX MIGA (Matter wave-laser based Interferometer Gravitation Antenna) project and by the European FEDER 2006-2013 “PFM LSBB – Développement des qualités environnementales du LSBB”. This instrument is operational since September 2015. We present the first tidal analyses of the 7-month time-varying gravity records of this newly installed instrument as well as the calibration results performed by parallel FG5 absolute gravity measurements. We also show the performances of iOSG-024 in terms of noise levels in the seismic (in the millihertz frequency range) band using a standardized procedure based on the computation of the residual power spectral densities over a quiet time period. The obtained noise levels are compared with other SG sites and with seismological reference noise models. The combination of the instrumental performance of the iOSG with the LSBB site properties makes this gravimetric station one of the quietest in the world, comparable to the lower sensor of the OSG-56 at BFO, at seismic frequencies.
url http://dx.doi.org/10.1051/e3sconf/20161206003
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