Geoscientific Instrumentation, Methods and Data Systems (Mar 2018)

Investigation of a low-cost magneto-inductive magnetometer for space science applications

  • L. H. Regoli,
  • M. B. Moldwin,
  • M. Pellioni,
  • B. Bronner,
  • K. Hite,
  • A. Sheinker,
  • B. M. Ponder

DOI
https://doi.org/10.5194/gi-7-129-2018
Journal volume & issue
Vol. 7
pp. 129 – 142

Abstract

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A new sensor for measuring low-amplitude magnetic fields that is ideal for small spacecraft is presented. The novel measurement principle enables the fabrication of a low-cost sensor with low power consumption and with measuring capabilities that are comparable to recent developments for CubeSat applications. The current magnetometer, a software-modified version of a commercial sensor, is capable of detecting fields with amplitudes as low as 8.7 nT at 40 Hz and 2.7 nT at 1 Hz, with a noise floor of 4 pT∕Hz at 1 Hz. The sensor has a linear response to less than 3 % over a range of ±100 000 nT. All of these features make the magneto-inductive principle a promising technology for the development of magnetic sensors for both space-borne and ground-based applications to study geomagnetic activity.