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Contributors to fluxgate magnetic noise in permalloy foils including a potential new copper alloy regime
Journal article   Open access   Peer reviewed

Contributors to fluxgate magnetic noise in permalloy foils including a potential new copper alloy regime

David M. Miles, Richard Dvorsky, Kenton Greene, Christian T. Hansen, B. Barry Narod and Michael D. Webb
Geoscientific instrumentation, methods and data systems, Vol.11(1), pp.111-126
03/03/2022
DOI: 10.5194/gi-11-111-2022
url
https://doi.org/10.5194/gi-11-111-2022View
Published (Version of record) Open Access

Abstract

Fluxgate magnetometers provide sensitive and stable measurements of the static and low-frequency vector magnetic field. Fluxgates form a magnetic field measurement by periodically saturating a ferromagnetic core and the intrinsic magnetic noise of this material can determine the noise floor of the instrument. We present the results of an empirical experiment to understand the physical parameters that influence the intrinsic magnetic noise of fluxgate cores. We compare two permalloy alloys - the historical standard 6 % molybdenum alloy and a new 28 % copper alloy. We examine the influence of geometry using the historical standard 1 in. diameter spiral-wound ring core and a new stacked washer racetrack design. We evaluate the influence of material thickness by comparing 100 and 50 pm foils. Finally, we investigate heat treatments in terms of temperature and ramp rate and their role in both grain size and magnetic noise. The results of these experiments suggest that thinner foils, potentially comprising the copper alloy, manufactured into continuous racetrack geometry washers may provide excellent performance in fluxgate sensors.
 Geology Geosciences, Multidisciplinary Meteorology & Atmospheric Sciences Physical Sciences Science & Technology

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