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Calibration of a novel three-axis fluxgate gradiometer for space applications

Calibration of a novel three-axis fluxgate gradiometer for space applications
Calibration of a novel three-axis fluxgate gradiometer for space applications
The importance of magnetic cleanliness and inflight compensation to account for fluctuations in magnetic field is a recognized concern within the space industry. Their effects must be considered, minimized, and where necessary compensated throughout the development of any spacecraft, their subsystems, and while in flight. This is just as true within the context of the laser interferometer space antenna pathfinder mission, where sensitive gravitational wave telemetry systems are vulnerable to magnetic disturbances. In collaboration with the Science and Technology Facility Council, Rutherford Appleton Laboratory, Bartington Instruments, and the National Physical Laboratory (NPL), a compact low-noise gradiometer was developed under European Space Agency contract reference AO/1-6085/09/NL/AF. Such a versatile device will be used on the ground to assess the magnetic cleanliness of spacecraft and also inflight, to monitor changes in the local magnetic field. This paper introduces the capabilities developed by NPL, specifically for the calibration of the compact low-noise fluxgate gradiometer. The procedures used to test and calibrate the novel gradiometer will be discussed in detail, including a range of Helmholtz coils, gradient coils (used to generate known diagonal and off-diagonal gradients), and shielding techniques. These technologies were combined to establish key parameters, such as low frequency noise, offset, gain and gradient sensitivity, with specific attention given to the off-diagonal terms of the gradient tensor matrix.
0018-9464
Turner, S.
17053ea1-70aa-4622-bc32-675b7780dfd6
Hall, M.J.
468e31e2-c292-4dd4-80b9-c66554106810
Harmon, S.A.C.
cfa4d2d2-f657-4df2-9980-bc9426f4d377
Hillier, N.
c684f55d-b076-43f9-94e4-9e718d1e217e
Turner, S.
17053ea1-70aa-4622-bc32-675b7780dfd6
Hall, M.J.
468e31e2-c292-4dd4-80b9-c66554106810
Harmon, S.A.C.
cfa4d2d2-f657-4df2-9980-bc9426f4d377
Hillier, N.
c684f55d-b076-43f9-94e4-9e718d1e217e

Turner, S., Hall, M.J., Harmon, S.A.C. and Hillier, N. (2015) Calibration of a novel three-axis fluxgate gradiometer for space applications. IEEE Transactions on Magnetics, 51 (1). (doi:10.1109/TMAG.2014.2360614).

Record type: Article

Abstract

The importance of magnetic cleanliness and inflight compensation to account for fluctuations in magnetic field is a recognized concern within the space industry. Their effects must be considered, minimized, and where necessary compensated throughout the development of any spacecraft, their subsystems, and while in flight. This is just as true within the context of the laser interferometer space antenna pathfinder mission, where sensitive gravitational wave telemetry systems are vulnerable to magnetic disturbances. In collaboration with the Science and Technology Facility Council, Rutherford Appleton Laboratory, Bartington Instruments, and the National Physical Laboratory (NPL), a compact low-noise gradiometer was developed under European Space Agency contract reference AO/1-6085/09/NL/AF. Such a versatile device will be used on the ground to assess the magnetic cleanliness of spacecraft and also inflight, to monitor changes in the local magnetic field. This paper introduces the capabilities developed by NPL, specifically for the calibration of the compact low-noise fluxgate gradiometer. The procedures used to test and calibrate the novel gradiometer will be discussed in detail, including a range of Helmholtz coils, gradient coils (used to generate known diagonal and off-diagonal gradients), and shielding techniques. These technologies were combined to establish key parameters, such as low frequency noise, offset, gain and gradient sensitivity, with specific attention given to the off-diagonal terms of the gradient tensor matrix.

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Published date: 2 February 2015
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Identifiers

Local EPrints ID: 510578
URI: http://eprints.soton.ac.uk/id/eprint/510578
DOI: doi:10.1109/TMAG.2014.2360614
ISSN: 0018-9464
PURE UUID: a20acd05-da4e-41a7-a229-bb989c3d6c06
ORCID for N. Hillier: ORCID iD orcid.org/0000-0002-3544-8329

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Date deposited: 13 Apr 2026 17:31
Last modified: 14 Apr 2026 02:19

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Contributors

Author: S. Turner
Author: M.J. Hall
Author: S.A.C. Harmon
Author: N. Hillier ORCID iD

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