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Article Dans Une Revue Earth Planets and Space Année : 2015

Parent magnetic field models for the IGRF-12 GFZ-candidates

Résumé

We propose candidate models for IGRF-12. These models were derived from parent models built from 10 months of Swarm satellite data and 1.5 years of magnetic observatory data. Using the same parameterisation, a magnetic field model was built from a slightly extended satellite data set. As a result of discrepancies between magnetic field intensity measured by the absolute scalar instrument and that calculated from the vector instrument, we re-calibrated the satellite data. For the calibration, we assumed that the discrepancies resulted from a small perturbing magnetic field carried by the satellite, with a strength and orientation dependent on the Sun's position relative to the satellite. Scalar and vector data were reconciled using only a limited number of calibration parameters. The data selection process, followed by the joint modelling of the magnetic field and Euler angles, leads to accurate models of the main field and its secular variation around 2014.0. The obtained secular variation model is compared with models based on CHAMP satellite data. The comparison suggests that pulses of magnetic field acceleration that were observed on short time scales average-out over a decade.
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Dates et versions

hal-02369719 , version 1 (19-11-2019)

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Vincent Lesur, Martin Rother, Ingo Wardinski, Reyko Schachtschneider, Mohamed Hamoudi, et al.. Parent magnetic field models for the IGRF-12 GFZ-candidates. Earth Planets and Space, 2015, 67 (1), pp.87. ⟨10.1186/s40623-015-0239-6⟩. ⟨hal-02369719⟩
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