Some things special about NEAs: Geometric and environmental effects on the optical signatures of hydration
S. Potin, P.Beck, B. Schmitt, F. Moynier

TL;DR
This study investigates how environmental and geometric factors like temperature, surface roughness, and observation angles influence the optical signatures of hydrated near-Earth asteroids through laboratory spectroscopy of meteorite samples.
Contribution
It provides new insights into how temperature, surface texture, and observation geometry affect asteroid spectral features, especially hydration signatures, under conditions mimicking NEAs.
Findings
Warm environments weaken absorption bands but do not eliminate them.
Surface texture significantly influences spectral features.
Measurement geometry impacts spectral parameters and feature detectability.
Abstract
Here were report on a laboratory study aiming to reproduce specificities of near-Earth Asteroid. We study how the elevated surface temperature, their surface roughness (rock or regolith), as well as observation geometry can affect the absorption features detected on asteroids. For that purpose, we selected a recent carbonaceous chondrite fall, the Mukundpura CM2 chondrite which fell in India in June 2017. Bidirectional reflectance spectroscopy was performed to analyze the effect of the geometrical configuration (incidence, emergence and azimuth angle) on the measurement. Our results show that reflectance spectra obtained under warm environment (NEA-like) tends to show shallower absorption bands compared to low-temperature conditions (MBA-like), but still detectable in our experiments under laboratory timescales. Irreversible alteration of the sample because of the warm environment (from…
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