Summary
This proposal intends to make a ground-breaking advance in magnetometry with the development of a new portable and compact multi-sensor instrument for on ground exploration which measures the complex susceptibility with high resolution. The combination of complex susceptibility and vector measurements would provide for the first time a complete and non-invasive in situ magnetic characterization of rocks from planetary surface and subsurfaces.
These topics represent a challenge since present magnetic prospectionsare principally based on measurements of magnetic field intensities and on ground surveys have never been complemented with in situ measurements of complex susceptibility.
In the design of such an instrument the consortium will include two important innovative developments: on the one hand a challenging system of frequency generation and measurement (ultra precise and with accuracies better than 1:106), and on the other hand an original system for the power generation of multiple voltages based on magnetic amplifiers which apart from being intrinsically immune to radiation, are expected to improve the energy efficiency.
NEWTON project will open a breach for magnetic instrumentation on board landers and rovers with the inclusion of novel instrument in short-term and mid-term future missions.
These topics represent a challenge since present magnetic prospectionsare principally based on measurements of magnetic field intensities and on ground surveys have never been complemented with in situ measurements of complex susceptibility.
In the design of such an instrument the consortium will include two important innovative developments: on the one hand a challenging system of frequency generation and measurement (ultra precise and with accuracies better than 1:106), and on the other hand an original system for the power generation of multiple voltages based on magnetic amplifiers which apart from being intrinsically immune to radiation, are expected to improve the energy efficiency.
NEWTON project will open a breach for magnetic instrumentation on board landers and rovers with the inclusion of novel instrument in short-term and mid-term future missions.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/730041 |
Start date: | 01-11-2016 |
End date: | 31-01-2020 |
Total budget - Public funding: | 1 567 516,25 Euro - 1 567 516,00 Euro |
Cordis data
Original description
This proposal intends to make a ground-breaking advance in magnetometry with the development of a new portable and compact multi-sensor instrument for on ground exploration which measures the complex susceptibility with high resolution. The combination of complex susceptibility and vector measurements would provide for the first time a complete and non-invasive in situ magnetic characterization of rocks from planetary surface and subsurfaces.These topics represent a challenge since present magnetic prospectionsare principally based on measurements of magnetic field intensities and on ground surveys have never been complemented with in situ measurements of complex susceptibility.
In the design of such an instrument the consortium will include two important innovative developments: on the one hand a challenging system of frequency generation and measurement (ultra precise and with accuracies better than 1:106), and on the other hand an original system for the power generation of multiple voltages based on magnetic amplifiers which apart from being intrinsically immune to radiation, are expected to improve the energy efficiency.
NEWTON project will open a breach for magnetic instrumentation on board landers and rovers with the inclusion of novel instrument in short-term and mid-term future missions.
Status
CLOSEDCall topic
COMPET-5-2016Update Date
27-10-2022
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