Physics
Scientific paper
Feb 2003
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2003jgre..108.8029p&link_type=abstract
Journal of Geophysical Research (Planets), Volume 108, Issue E4, pp. GDS 10-1, CiteID 8029, DOI 10.1029/2002JE001869
Physics
8
Planetary Sciences: Physical Properties Of Materials, Planetology: Solar System Objects: Mars, Physical Properties Of Rocks: Magnetic And Electrical Properties
Scientific paper
Permittivity and conductivity measurements were performed to assess the dielectric behavior of solid CO2 (i.e., CO2 ice, snow, and powder) and solid CO2/soil mixtures. For comparison, some dielectric measurements were also conducted on H2O ice, dry glass beads, glass beads saturated with water, drained glass beads, and frozen drained glass beads. The measurements were performed in the frequency domain (20 Hz to 1 MHz) using a capacitive cell (Parallel Plate Capacitor) and in the time domain using a transmission line (Time Domain Reflectometry). The data obtained with both techniques have shown that solid CO2 has a permittivity value that ranges between 1.4 and 2.1 as a function of density, values that distinguish it from H2O ice. In contrast, H2O ice, dry glass beads, frozen (drained) glass beads, and dry volcanic sand all have very similar permittivity values, and thus they cannot be clearly distinguished at higher frequencies. Data have also shown that a high volume fraction of solid CO2 significantly reduces the permittivity value of a soil. Furthermore, almost all the samples tested in this work seem to behave like low loss materials, having a conductivity which is generally equal to or lower than 10-6 Sm-1 at the highest frequency (and smaller values at lower frequencies). Finally, TDR measurements and data from some dielectric models were compared in order to assess the capability of these models to predict the permittivity of a granular multiphase material.
Bella Francesco
Cereti Annamaria
della Monica Giuseppe
Paolucci Francesca
Pettinelli Elena
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