# Interstellar Dust Grains: Ultraviolet and Mid-IR Extinction Curves

**Authors:** Karl D. Gordon, Karl Misselt, Yvonne Pendleton, Benne Holwerda,, Christopher Clark, Geoffrey Clayton, Lea Hagen, Julia Roman-Duval, Adolf, Witt, Michael Wolff

arXiv: 1903.09995 · 2019-03-26

## TL;DR

This paper emphasizes the importance of UV and mid-IR extinction curves in understanding interstellar dust properties across different environments, highlighting the need for extensive observations in the Local Group to improve dust models.

## Contribution

It advocates for comprehensive UV and MIR extinction measurements across Local Group galaxies to better understand dust grain variations and improve astrophysical models.

## Key findings

- Current extinction curves are biased towards the Milky Way.
- Dust properties vary significantly across different environments.
- A large, statistically significant dataset is needed for better dust modeling.

## Abstract

Interstellar dust plays a central role in shaping the detailed structure of the interstellar medium, thus strongly influencing star formation and galaxy evolution. Dust extinction provides one of the main pillars of our understanding of interstellar dust while also often being one of the limiting factors when interpreting observations of distant objects, including resolved and unresolved galaxies. The ultraviolet (UV) and mid-infrared (MIR) wavelength regimes exhibit features of the main components of dust, carbonaceous and silicate materials, and therefore provide the most fruitful avenue for detailed extinction curve studies. Our current picture of extinction curves is strongly biased to nearby regions in the Milky Way. The small number of UV extinction curves measured in the Local Group (mainly Magellanic Clouds) clearly indicates that the range of dust properties is significantly broader than those inferred from the UV extinction characteristics of local regions of the Milky Way. Obtaining statistically significant samples of UV and MIR extinction measurements for all the dusty Local Group galaxies will provide, for the first time, a basis for understanding dust grains over a wide range of environments. Obtaining such observations requires sensitive medium-band UV, blue-optical, and mid-IR imaging and followup R ~ 1000 spectroscopy of thousands of sources. Such a census will revolutionize our understanding of the dependence of dust properties on local environment providing both an empirical description of the effects of dust on observations as well as strong constraints on dust grain and evolution models.

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/1903.09995/full.md

## References

36 references — full list in the complete paper: https://tomesphere.com/paper/1903.09995/full.md

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Source: https://tomesphere.com/paper/1903.09995