Evidence for hydrated minerals in the VNIR spectra of G-class asteroids: A first look

• Published in: Icarus (New York, N.Y. 1962) Vol. 377; p. 114916
• Main Authors: Germann, J.T., Fieber-Beyer, S.K., Gaffey, M.J.
• Format: Journal Article
• Language: English
• Published: Elsevier Inc 01.05.2022
• Subjects: Asteroids; Composition; IR spectroscopy; Mineralogy; Composition; IR spectroscopy; Asteroids; Mineralogy
• ISSN: 0019-1035; 1090-2643
• DOI: 10.1016/j.icarus.2022.114916

We present the initial results of our visible and near-infrared (VNIR) investigation into the spectral properties of the Tholen G-class asteroids to determine: 1) which spectral properties are common among the G-class, and 2) which surface minerals may be related to the spectral features present. Our study utilized both previously published and newly obtained spectra of five G-class asteroids. Our results indicate that four of these asteroids: (13) Egeria, (19) Fortuna, (84) Klio, and (130) Elektra, exhibit spectral features consistent with hydrated minerals in the VNIR (0.4–2.5-μm). The most notable absorption feature was located at 0.7-μm, which is related to the Fe2+ ➔ Fe3+ charge transfer transition in oxidized Fe-rich phyllosilicates. In addition, several of the asteroids also exhibit subtle absorption features located near 0.95-, 1.4-, 1.9-, and 2.3-μm, which may also be related to hydrated minerals. Only (1) Ceres' spectrum lacked features related to hydrated minerals in the VNIR. This may indicate that either (1) Ceres contains lower concentrations of hydrated minerals at its surface, or that (1) Ceres has an opaque surface component, which may obscure weak hydrated VNIR features. •Visible and near-infrared observations of G-class asteroids.•Hydrated mineral identification in the spectrum of G-class asteroids.•Chemistry of main-belt asteroids.•The identification of a disparity in the spectral distribution among the G-class asteroids.