Stochastic modelling of regional archaeomagnetic series
Stochastic modelling of regional archaeomagnetic series
We report a new method to infer continuous time-series of the declination, inclination and intensity of the magnetic field from archaeomagnetic data. Adopting a Bayesian perspective, we need to specify a priori knowledge about the time evolution of the magnetic field. It consists in a time correlation function that we choose to be compatible with present knowledge about the geomagnetic time spectra. The results are presented as distributions of possible values for the declination, inclination or intensity.We find that the methodology can be adapted to account for the age uncertainties of archaeological artefacts and we use Markov chain Monte Carlo to explore the possible dates of observations. We apply the method to intensity data sets from Mari, Syria and to intensity and directional data sets from Paris, France. Our reconstructions display more rapid variations than previous studies and we find that the possible values of geomagnetic field elements are not necessarily normally distributed. Another output of the model is better age estimates of archaeological artefacts.
931-943
Hellio, Gabrielle
39cfb390-8757-4af5-8bd0-82b916b400dd
Gillet, Nicolas
116ef855-949b-4ceb-9f3a-22317a94eb6a
Bouligand, Claire
97ece6ac-54a1-45cd-8c72-b5a932e48ecc
Jault, Dominique
af435b2c-c8a2-4ef9-af2f-9c3f4b9db7bb
November 2014
Hellio, Gabrielle
39cfb390-8757-4af5-8bd0-82b916b400dd
Gillet, Nicolas
116ef855-949b-4ceb-9f3a-22317a94eb6a
Bouligand, Claire
97ece6ac-54a1-45cd-8c72-b5a932e48ecc
Jault, Dominique
af435b2c-c8a2-4ef9-af2f-9c3f4b9db7bb
Hellio, Gabrielle, Gillet, Nicolas, Bouligand, Claire and Jault, Dominique
(2014)
Stochastic modelling of regional archaeomagnetic series.
Geophysical Journal International, 199 (2), .
(doi:10.1093/gji/ggu303).
Abstract
We report a new method to infer continuous time-series of the declination, inclination and intensity of the magnetic field from archaeomagnetic data. Adopting a Bayesian perspective, we need to specify a priori knowledge about the time evolution of the magnetic field. It consists in a time correlation function that we choose to be compatible with present knowledge about the geomagnetic time spectra. The results are presented as distributions of possible values for the declination, inclination or intensity.We find that the methodology can be adapted to account for the age uncertainties of archaeological artefacts and we use Markov chain Monte Carlo to explore the possible dates of observations. We apply the method to intensity data sets from Mari, Syria and to intensity and directional data sets from Paris, France. Our reconstructions display more rapid variations than previous studies and we find that the possible values of geomagnetic field elements are not necessarily normally distributed. Another output of the model is better age estimates of archaeological artefacts.
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Accepted/In Press date: 31 July 2014
e-pub ahead of print date: 9 September 2014
Published date: November 2014
Identifiers
Local EPrints ID: 425502
URI: http://eprints.soton.ac.uk/id/eprint/425502
ISSN: 0956-540X
PURE UUID: 48c54d72-a6ec-4f17-b702-168fb004277e
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Date deposited: 22 Oct 2018 16:30
Last modified: 15 Mar 2024 22:12
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Contributors
Author:
Gabrielle Hellio
Author:
Nicolas Gillet
Author:
Claire Bouligand
Author:
Dominique Jault
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