# The Magellanic Stream as a Probe of Astrophysics

**Authors:** Andrew J. Fox, Kathleen A. Barger, Joss Bland-Hawthorn, Dana, Casetti-Dinescu, Elena D'Onghia, Felix J. Lockman, Naomi McClure-Griffiths,, David Nidever, Mary Putman, Philipp Richter, Snezana Stanimirovic, Thorsten, Tepper-Garcia

arXiv: 1903.04831 · 2019-03-13

## TL;DR

The Magellanic Stream is a vast, complex gaseous structure that offers insights into galaxy interactions, gas accretion, and the Milky Way's halo, serving as a crucial natural laboratory for astrophysics.

## Contribution

This paper highlights the importance of the Magellanic Stream for understanding galaxy dynamics, gas accretion, and halo interactions, and outlines future observational and modeling needs.

## Key findings

- The Stream contains more gas than all other Galactic high velocity clouds combined.
- It is a key benchmark for dynamical models of the Magellanic System.
- Survival of the Stream to reach the Galactic disk could influence star formation.

## Abstract

Extending for over 200 degrees across the sky, the Magellanic Stream together with its Leading Arm is the most spectacular example of a gaseous stream in the local Universe. The Stream is an interwoven tail of filaments trailing the Magellanic Clouds as they orbit the Milky Way. Thought to be created by tidal forces, ram pressure, and halo interactions, the Stream is a benchmark for dynamical models of the Magellanic System, a case study for gas accretion and dwarf-galaxy accretion onto galaxies, a probe of the outer halo, and the bearer of more gas mass than all other Galactic high velocity clouds combined. If it survives to reach the Galactic disk, it may maintain or even elevate the Galactic star-formation rate. In this white paper, we emphasize the Stream's importance for many areas of Galactic astronomy, summarize key unanswered questions, and identify future observations and simulations needed to resolve them. We stress the importance of ultraviolet, optical, and radio spectroscopy, and the need for computational models that capture full particle and radiation treatments within an MHD environment.

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Source: https://tomesphere.com/paper/1903.04831