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Comparison of Magnetic Fields from a New Satellite Magnetic Model of the Lithosphere with Magnetic Fields Predicted from Crust 1.0 (2018)

Olsen, Nils ; Purucker, Michael E.

In: CASI

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Publication Date: 2019-07-19

Description: Both magnetic and seismic techniques can provide information about the Moho (Mohorovicic discontinuity). We develop a new technique that provides a better estimate of the magnetic thickness of the crust, as compared with previous approaches. It uses prior knowledge from seismology (Crust 1.0), a new high-degree model from CHAMP (CHAllenging Mini-satellite Payload) and Swarm (LCS-1 - a model of Earth's lithospheric field) and a newly developed technique. The technique is appropriate for regions where induced magnetization dominates over remanent magnetization. We compare the predictions from LCS-1 with those from Crust 1.0, with some simple assumptions, and find that the correlations increase until about spherical harmonic degree 30, and then decrease globally. Spatially, the correlations between the seismic and magnetic techniques are strongest over North America and Australia, and weakest over South America and northern Africa. Strong correlations also exist between the two approaches over the Antarctic, northern Europe, and Greenland. While we might expect the seismic and magnetic approaches to correlate over well-characterized regions (i.e. North America), and show weaker correlations over poorly-characterized regions (i.e. South America and north Africa), the strong correlation in the Antarctic and Greenland is puzzling, because both of these regions are poorly-characterized. We discuss some possible explanations, and implications, of this attempt to correlate seismic and magnetic approaches to characterizing the lithosphere.

Keywords: Geophysics

Type: GSFC 0176-143 , GSFC-E-DAA-TN60131

Format: application/pdf

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The Swarm Initial Field Model for the 2014 Geomagnetic Field (2015)

Hulot, Gauthier ; Lesur, Vincent ; Finlay, Christopher C. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Data from the first year of ESA's Swarm constellation mission are used to derive the Swarm Initial Field Model (SIFM), a new model of the Earth's magnetic field and its time variation. In addition to the conventional magnetic field observations provided by each of the three Swarm satellites, explicit advantage is taken of the constellation aspect by including east-west magnetic intensity gradient information from the lower satellite pair. Along-track differences in magnetic intensity provide further information concerning the north-south gradient. The SIFM static field shows excellent agreement (up to at least degree 60) with recent field models derived from CHAMP data, providing an initial validation of the quality of the Swarm magnetic measurements. Use of gradient data improves the determination of both the static field and its secular variation, with the mean misfit for east-west intensity differences between the lower satellite pair being only 0.12 nT.

Keywords: Geophysics

Type: GSFC-E-DAA-TN40425 , Geophysical Research Letters (ISSN 0094-8276) (e-ISSN 1944-8007)); 42; 4; 1092-1098

Format: text

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Swarm Satellites in EM Induction Studies (2018)

Alexander Grayver, ; Kuvshinov, Alexey ; Olsen, Nils ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: There exists no single EM induction source that is sensitive to the whole mantle.We need to integrate several natural sources in order to bridge across the scales.On the global scale, the most promising methodology is to combine magnetospheric and ocean tidal signals to image mantle under both continents and oceans.

Keywords: Spacecraft Design, Testing and Performance

Type: GSFC-E-DAA-TN60164 , The EM Induction Workshop; Aug 13, 2018 - Aug 20, 2018; Copenhagen; Denmark

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A Comprehensive Model of Earth's Magnetic Field Determined from 4 Years of Swarm Satellite Observations (2018)

Sabaka, Terence J. ; Olsen, Nils ; Finlay, Christopher C. ; [et al.]

In: CASI

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Publication Date: 2019-09-20

Description: The European Space Agency's three-satellite constellation Swarm, launched in November 2013, has provided unprecedented monitoring of Earth's magnetic field via a unique set of gradiometric and multi-satellite measurements from low Earth orbit. In order to exploit these measurements, an advanced "Comprehensive Inversion" (CI) algorithm has been developed to optimally separate the various major magnetic field sources in the near-Earth regime. The CI algorithm is used to determine Swarm Level-2 (L2) magnetic field data products that include the core, lithospheric, ionospheric, magnetospheric, and associated induced sources. In addition, it has become apparent that the CI is capable of extracting the magnetic signal associated with the oceanic principal lunar semi-diurnal tidal constituent M(sub 2) to such an extent that it has been added to the L2 data product line. This paper presents the parent model of the Swarm L2 CI products derived with measurements from the first four years of the Swarm mission and from ground observatories, denoted as "CIY4", including the new product describing the magnetic signal of the M(sub 2) oceanic tide.

Keywords: Geophysics

Type: GSFC-E-DAA-TN60433 , Earth, Planets and Space (ISSN 1343-8832) (e-ISSN 1880-5981); 70; 130

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