C60 Cation as the Carrier of the 9577 and 9632 Angstrom Diffuse Interstellar Bands: Further Support from the VLT/X-Shooter Spectra

TL;DR

This study provides further observational evidence supporting C60+ ions as the carriers of specific diffuse interstellar bands at 9577 and 9632 Angstroms, using VLT/X-shooter spectra and correlation analysis.

Contribution

The paper presents new detections and correlation analysis of DIBs in stellar spectra, strengthening the case for C60+ as their carrier, addressing previous variability issues.

Findings

Detected the 9632 and 9577 Angstrom DIBs in 25 stellar spectra.

Found a tight, positive correlation between the DIBs after normalization.

Supported C60+ as the likely carrier of these DIBs.

Abstract

Ever since their first detection over 100 years ago, the mysterious diffuse interstellar bands (DIBs), a set of several hundred broad absorption features seen against distant stars in the optical and near infrared wavelength range, largely remain unidentified. The close match both in wavelengths and in relative strengths recently found between the experimental absorption spectra of gas-phase buckminsterfullerene ions (C60+) and four DIBs at 9632, 9577, 9428 and 9365 Angstrom (and, to a lesser degree, a weaker DIB at 9348 Angstrom) suggests C60+ as a promising carrier. However, arguments against the C60+ identification remain and are mostly concerned with the large variation in the intensity ratios of the 9632 and 9577 DIBs. In this work, we search for these DIBs in the ESO VLT/X-shooter archival data and identify the 9632, 9577, 9428 and 9365 Angstrom DIBs in a sample of 25 stars. While the 9428 and 9365 Angstrom DIBs are too noisy to allow any reliable analysis, the 9632 and 9577 Angstrom DIBs are unambiguously detected and, after correcting for telluric water vapor absorption, their correlation can be used to probe their origin. To this end, we select a sub-sample of nine hot, O- or B0-type stars of which the stellar Mg II contamination to the 9632 Angstrom DIB is negligibly small. We find their equivalent widths, after normalized by reddening to eliminate their common correlation with the density of interstellar clouds, exhibit a tight, positive correlation. This supports C60+ as the carrier of the 9632 and 9577 Angstrom DIBs.