AUTHOR=Gscheidle Christian , Witzel Thilo , Smolka Alexander , Reiss Philipp
TITLE=Permittivity sensor development for lunar and planetary surface exploration
JOURNAL=Frontiers in Space Technologies
VOLUME=4
YEAR=2024
URL=https://www.frontiersin.org/journals/space-technologies/articles/10.3389/frspt.2023.1303180
DOI=10.3389/frspt.2023.1303180
ISSN=2673-5075
ABSTRACT=
Permittivity sensors measure the electric permittivity (formerly known as the dielectric constant) of a sample between its electrodes and offer a reliable method to characterize the subsurface of planetary bodies in situ. One potential application is the identification and mapping of water ice at the poles of the Moon. In this paper, the scientific background and heritage of the permittivity sensor concept are discussed, and the implemented electronic architecture is introduced, focusing on the novel patch electrodes. The data processing approach for the measurements is based on Fourier transformation, and numerical simulation setups are used for performance predictions. The calibration of the sensor validates the functionality of the electronics, and the results from both simulations and characterization experiments show that the concept is applicable in the exploration scenario. Considering both engineering and scientific aspects, the results highlight the permittivity sensor’s suitability for lunar and planetary exploration missions, albeit further points for improvement are identified.