Experimental assessment of the speed of light perturbation in free-fall absolute gravimeters

Precision absolute gravity measurements are growing in importance, especially in the context of the new definition of the kilogram. For the case of free-fall absolute gravimeters with a Michelson-type interferometer tracking the position of a free falling body, one of the effects that needs to be ta...

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Detalles Bibliográficos
Autores principales: Baumann, H., Pythoud, F., Blas, D., Sibiryakov, S., Eichenberger, A., Klingelé, E.E.
Lenguaje:eng
Publicado: 2015
Materias:
Other Fields of Physics
Acceso en línea:https://dx.doi.org/10.1088/0026-1394/52/5/635
http://cds.cern.ch/record/2031623
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author Baumann, H.
Pythoud, F.
Blas, D.
Sibiryakov, S.
Eichenberger, A.
Klingelé, E.E.
author_facet Baumann, H.
Pythoud, F.
Blas, D.
Sibiryakov, S.
Eichenberger, A.
Klingelé, E.E.
author_sort Baumann, H.
collection CERN
description Precision absolute gravity measurements are growing in importance, especially in the context of the new definition of the kilogram. For the case of free-fall absolute gravimeters with a Michelson-type interferometer tracking the position of a free falling body, one of the effects that needs to be taken into account is the speed of light perturbation due to the finite speed of propagation of light. This effect has been extensively discussed in the past, and there is at present a disagreement between different studies. In this work, we present the analysis of new data and confirm the result expected from the theoretical analysis applied nowadays in free-fall gravimeters. We also review the standard derivations of this effect (by using phase shift or Doppler effect arguments) and show their equivalence.
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institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2015
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spelling cern-20316232023-01-26T07:40:57Zdoi:10.1088/0026-1394/52/5/635http://cds.cern.ch/record/2031623engBaumann, H.Pythoud, F.Blas, D.Sibiryakov, S.Eichenberger, A.Klingelé, E.E.Experimental assessment of the speed of light perturbation in free-fall absolute gravimetersOther Fields of PhysicsPrecision absolute gravity measurements are growing in importance, especially in the context of the new definition of the kilogram. For the case of free-fall absolute gravimeters with a Michelson-type interferometer tracking the position of a free falling body, one of the effects that needs to be taken into account is the speed of light perturbation due to the finite speed of propagation of light. This effect has been extensively discussed in the past, and there is at present a disagreement between different studies. In this work, we present the analysis of new data and confirm the result expected from the theoretical analysis applied nowadays in free-fall gravimeters. We also review the standard derivations of this effect (by using phase shift or Doppler effect arguments) and show their equivalence.Precision absolute gravity measurements are growing in importance, especially in the context of the new definition of the kilogram. For the case of free fall absolute gravimeters with a Michelson-type interferometer tracking the position of a free falling body, one of the effects that needs to be taken into account is the 'speed of light perturbation' due to the finite speed of propagation of light. This effect has been extensively discussed in the past, and there is at present a disagreement between different studies. In this work, we present the analysis of new data and confirm the result expected from the theoretical analysis applied nowadays in free-fall gravimeters. We also review the standard derivations of this effect (by using phase shift or Doppler effect arguments) and show their equivalence.Precision absolute gravity measurements are growing in importance, especially in the context of the new definition of the kilogram. For the case of free-fall absolute gravimeters with a Michelson-type interferometer tracking the position of a free falling body, one of the effects that needs to be taken into account is the speed of light perturbation due to the finite speed of propagation of light. This effect has been extensively discussed in the past, and there is at present a disagreement between different studies. In this work, we present the analysis of new data and confirm the result expected from the theoretical analysis applied nowadays in free-fall gravimeters. We also review the standard derivations of this effect (by using phase shift or Doppler effect arguments) and show their equivalence.arXiv:1507.01204oai:cds.cern.ch:20316232015-07-05
spellingShingle Other Fields of Physics
Baumann, H.
Pythoud, F.
Blas, D.
Sibiryakov, S.
Eichenberger, A.
Klingelé, E.E.
Experimental assessment of the speed of light perturbation in free-fall absolute gravimeters
title Experimental assessment of the speed of light perturbation in free-fall absolute gravimeters
title_full Experimental assessment of the speed of light perturbation in free-fall absolute gravimeters
title_fullStr Experimental assessment of the speed of light perturbation in free-fall absolute gravimeters
title_full_unstemmed Experimental assessment of the speed of light perturbation in free-fall absolute gravimeters
title_short Experimental assessment of the speed of light perturbation in free-fall absolute gravimeters
title_sort experimental assessment of the speed of light perturbation in free-fall absolute gravimeters
topic Other Fields of Physics
url https://dx.doi.org/10.1088/0026-1394/52/5/635
http://cds.cern.ch/record/2031623
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AT pythoudf experimentalassessmentofthespeedoflightperturbationinfreefallabsolutegravimeters
AT blasd experimentalassessmentofthespeedoflightperturbationinfreefallabsolutegravimeters
AT sibiryakovs experimentalassessmentofthespeedoflightperturbationinfreefallabsolutegravimeters
AT eichenbergera experimentalassessmentofthespeedoflightperturbationinfreefallabsolutegravimeters
AT klingeleee experimentalassessmentofthespeedoflightperturbationinfreefallabsolutegravimeters

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