Effects of ion irradiation on Mercury terrestrial analogues in the visible to mid-infrared
Résumé
The surface of Mercury is subject to space weathering that complicates remote sensing data analysis. We present an experimental study performed on Mercury volcanic surface analogues to provide a better constraint on spectral alterations induced by solar wind. We used 20 keV He+ with fluences up to 5 × 10$^{17}$ ions/cm$^2$ to simulate ion irradiation reaching the surface. Terrestrial ultramafic lava already identified as good analogues for Mercury were used: a boninite, a basaltic komatiite and a komatiite. Spectra were acquired in the visible to mid- infrared (VMIR) wavelength range, between 0.4 and 16 μm. Spectral alterations induced by irradiation are observed. In the visible to near-infrared (VNIR) samples show an exponential darkening, a reddening and a flattening of spectra. Above a certain irradiation dose (1 × 10$^{17}$ ions/cm$^2$ in our conditions), the darkening reaches a plateau while the reddening and flattening do not show any definable trend. In the mid-infrared (MIR) we observe a shift of Reststrahlen bands towards longer wavelengths (≤0.42 μm). The Christiansen feature is shifted towards longer or shorter wavelengths according to the irradiation dose (≤0.2 μm). The spectral alter- ation is closely influenced by the composition. As Mercury’s surface is compositionally heterogeneous, the degree of spectral alteration varies on the planet and putatively participates in the heterogeneous spectral properties of the surface. This work provides ground-truth data for future ESA-JAXA-BepiColombo observations. The alter- ation of VMIR spectral features induced by ion irradiation simulated in the laboratory will be used for future SIMBIO-SYS (Spectrometer and Imaging for MPO BepiColombo Integrated Observatory SYStem) and MERTIS (Mercury Radiometer and Thermal Infrared Spectrometer) data analysis.
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