Origins of colors variability among C-cluster main-belt asteroids

TL;DR

This study analyzes the color and albedo data of C-cluster asteroids to understand their surface properties, composition, and size-related color variations, suggesting surface texture influences their spectral characteristics.

Contribution

It identifies a specific C-cluster of asteroids, compares their colors with chondrite meteorites, and links color variations to surface texture and size, providing new insights into asteroid surface processes.

Findings

C-cluster asteroids' colors align with B and C-type boundaries.

Color becomes bluer with decreasing asteroid diameter, especially below 20 km.

Surface texture, rather than space weathering, likely causes color variations.

Abstract

The Sloan Digital Sky Survey provides colors for more than 100 000 moving objects, among which around 10 000 have albedos determined. Here we combined colors and albedo in order to perform a cluster analysis on the small bodies population, and identify a C-cluster, a group of asteroid related to C-type as defined in earlier work. Members of this C-cluster are in fair agreement with the color boundaries of B and C-type defined in DeMeo and Carry (2013). We then compare colors of C-cluster asteroids to those of carbonaceous chondrites powders, while taking into account the effect of phase angle. We show that only CM chondrites have colors in the range of C-cluster asteroids, CO, CR and CV chondrites being significantly redder. Also, CM chondrites powders are on average slightly redder than the average C-cluster. The colors of C-cluster members are further investigated by looking at color variations as a function of asteroid diameter. We observe that the visible slope becomes bluer with decreasing asteroids diameter, and a transition seems to be present around 20 km. We discuss the origin of this variation and, if not related to a bias in the dataset - analysis, we conclude that it is related to the surface texture of the objects, smaller objects being covered by rocks, while larger objects are covered by a particulate surface. The blueing is interpreted by an increased contribution of the first reflection in the case of rock-dominated surfaces, which can scatter light in a Rayleigh-like manner. We do not have unambiguous evidence of space weathering within the C-cluster based on this analysis, however the generally bluer nature of C-cluster objects compared to CM chondrites could be to some extent related to space weathering.