the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Optimized merging of search coil and fluxgate data for MMS
Werner Magnes
Christian Hagen
Ivan Dors
Mark W. Chutter
Jerry Needell
Roy B. Torbert
Olivier Le Contel
Robert J. Strangeway
Gernot Kubin
Aris Valavanoglou
Ferdinand Plaschke
Rumi Nakamura
Laurent Mirioni
Christopher T. Russell
Hannes K. Leinweber
Kenneth R. Bromund
Guan Le
Lawrence Kepko
Brian J. Anderson
James A. Slavin
Wolfgang Baumjohann
Abstract. The Magnetospheric Multiscale mission (MMS) targets the characterization of fine-scale current structures in the Earth's tail and magnetopause. The high speed of these structures, when traversing one of the MMS spacecraft, creates magnetic field signatures that cross the sensitive frequency bands of both search coil and fluxgate magnetometers. Higher data quality for analysis of these events can be achieved by combining data from both instrument types and using the frequency bands with best sensitivity and signal-to-noise ratio from both sensors. This can be achieved by a model-based frequency compensation approach which requires the precise knowledge of instrument gain and phase properties. We discuss relevant aspects of the instrument design and the ground calibration activities, describe the model development and explain the application on in-flight data. Finally, we show the precision of this method by comparison of in-flight data. It confirms unity gain and a time difference of less than 100 µs between the different magnetometer instruments.
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