On the relationship between the continuum of interstellar extinction curves, the 2200 \AA\ bump, and the diffuse interstellar bands

TL;DR

This paper proposes that scattered starlight contaminates observed spectra, unifying the understanding of interstellar extinction features like the 2200 Å bump and DIBs without needing hypothetical particles.

Contribution

It introduces a paradigm where scattered starlight explains interstellar extinction features, eliminating the need for exotic particles like PAHs.

Findings

Scattered starlight accounts for the 2200 Å bump and DIBs.

Revises the interpretation of interstellar extinction effects.

Implications for cosmic distance measurements.

Abstract

A previous article argued that the antagonism between sight-lines with and without a bump at 2200 \AA\ disappears, and that the observed properties of interstellar extinction can be globally understood, if it is accepted that scattered starlight contaminates the observed spectrum of reddened stars. The present paper develops this new paradigm by providing a better understanding of the characteristics of this scattered light. It further examines the consequences of this revision of interstellar extinction theory for interpreting the 2200 \AA\ bump and the diffuse interstellar bands (DIBs). Two implications are worth noting: (1) the effect of interstellar extinction on cosmic distance estimations needs to be reconsidered; (2) it is unnecessary to invoke hypothetical particles, such as Poly Aromatic Hydrogenated molecules (PAHs), to explain the peculiarities of interstellar extinction. Hydrogen, by far the most abundant constituent of interstellar clouds, should alone account for the three major features of interstellar extinction: the departure of the continuum from linearity, the bump, and the DIBs.