New Insights into Erg Chech 002 Analogues in the Main Belt from Near-Infrared Spectroscopy

TL;DR

This study used near-infrared spectroscopy to analyze main belt asteroids for potential analogues of the unique meteorite Erg Chech 002, revealing some matches and suggesting a possible new spectral class of andesitic bodies.

Contribution

It provides new near-infrared spectral data on candidate asteroids and refines the identification of potential meteorite-asteroid links, introducing the possibility of a new spectral class.

Findings

16 asteroids classified as V-types, no match with Erg Chech 002

Asteroids (10537) 1991 RY16 and (14390) 1990 QP10 are good spectral matches

(7472) Kumakiri may be an olivine-rich Erg Chech 002 analogue

Abstract

Erg Chech 002 is an andesitic meteorite that formed early in the Solar System's history, and that is thought to have been formed in the primitive crust of an early accreted and differentiated planetesimal. It shows unique spectral features, and no known asteroid spectral type was initially found to match with its compositional type. In the literature, asteroids (10537) 1991 RY16, (7472) Kumakiri and (14390) 1990 QP10 were found to show peculiar spectra, and were not classified in any known existing spectral class. These objects were hypothesised to be fragments of differentiated planetesimals. In a previous study, the Gaia Data Release 3 dataset of visible reflectance spectra of Solar System Objects was exploited to search for potential analogues of Erg Chech 002 in the main belt. As a result, 142 asteroids were found to potentially match this meteorite. In this work, we present NASA's IRTF near-infrared observations of 20 main belt asteroids found as potential analogues of Erg Chech 002. We classified these asteroids based on their visible-near-infrared spectra, then studied and compared their diagnostic spectral features with those of the laboratory spectra of Erg Chech 002. We classified 16 of the 20 observed asteroids as V-types, one as S-complex and one as A-type, and conclude that none of the observed objects match with Erg Chech 002. In addition, we show that asteroids (10537) 1991 RY16 and (14390) 1990 QP10 are good spectral matches to Erg Chech 002 based on the study of their diagnostic spectral features. Asteroid (7472) Kumakiri could match a more olivine-rich Erg Chech 002-like material, and cannot be completely ruled out as a match of the meteorite. This possible link between the meteorite and these asteroids is consistent with the theories regarding their formation, and these asteroids could be part of a new spectral class of andesitic bodies in the main belt.