Ørsted and Magsat scalar anomaly fields

The scalar anomaly field determined from available Ørsted data is compared with the upward continued scalar anomaly field derived from Magsat data. Two techniques were used to remove the core field from the Ørsted satellite data. In the first method, monthly spherical harmonic core field models of d...

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Veröffentlicht in:	Earth, planets, and space planets, and space, 2000-01, Vol.52 (12), p.1213-1225
Hauptverfasser:	Ivers, D. J., Stening, R. J., Turner, J., Winch, D. E.
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Sprache:	eng
Schlagworte:	Fourier analysis Harmonic analysis Satellite data Signal processing Spherical harmonics
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container_title	Earth, planets, and space
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creator	Ivers, D. J. Stening, R. J. Turner, J. Winch, D. E.
description	The scalar anomaly field determined from available Ørsted data is compared with the upward continued scalar anomaly field derived from Magsat data. Two techniques were used to remove the core field from the Ørsted satellite data. In the first method, monthly spherical harmonic core field models of degree and order 13 derived from scalar and vector data were subtracted, and in the second method, along-track high-pass filtering of scalar data only was used. In both methods, the binned residuals were interpolated to a sphere, and subsequently filtered. Monthly degree and order 13 spherical harmonic core field models were removed from Magsat vector data. The binned Magsat vector residuals were interpolated to a sphere, filtered, and upward continued by high degree spherical harmonic analysis. The corresponding Magsat scalar anomaly field at Ørsted altitude was then determined. For latitudes below 50 degrees, removal of the core field by signal processing techniques from presently available Ørsted data led to a scalar anomaly field in better agreement with that determined from Magsat data, than removal by spherical harmonic analysis.
doi_str_mv	10.1186/BF03352354
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subjects	Fourier analysis Harmonic analysis Satellite data Signal processing Spherical harmonics
title	Ørsted and Magsat scalar anomaly fields
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