C60+ and the Diffuse Interstellar Bands: An Independent Laboratory Check

Abstract

In 2015, Campbell et al. (Nature 523, 322) presented spectroscopic laboratory gas phase data for the fullerene cation, C60+, that coincide with reported astronomical spectra of two diffuse interstellar band (DIB) features at 9633 and 9578 . In the following year additional laboratory spectra were linked to three other and weaker DIBs at 9428, 9366, and 9349 . The laboratory data were obtained using wavelength-dependent photodissociation spectroscopy of small (up to three) He-tagged C60+-Hen ion complexes, yielding rest wavelengths for the bare C60+ cation by correcting for the He-induced wavelength shifts. Here we present an alternative approach to derive the rest wavelengths of the four most prominent C60+ absorption features, using high resolution laser dissociation spectroscopy of C60+ embedded in ultracold He droplets. Accurate wavelengths of the bare fullerene cation are derived based on linear wavelength shifts recorded for HenC60+ species with n up to 32. A careful analysis of all available data results in precise rest wavelengths (in air) for the four most prominent C60+ bands: 9631.9(1) , 9576.7(1) , 9427.5(1) , and 9364.9(1) . The corresponding band widths have been derived and the relative band intensity ratios are discussed.