A new perspective on the interstellar cloud surrounding the Sun from UV absorption line results

TL;DR

This study presents a comprehensive new model of the local interstellar medium as a single, expanding cloud surrounding the Sun, based on UV absorption line data revealing complex velocity structures and physical properties.

Contribution

It introduces a revised, inclusive picture of the local interstellar cloud, highlighting its non-rigid, expanding nature and detailed velocity and density characteristics.

Findings

The cloud is a monolithic, expanding structure with irregular boundaries.

Secondary velocity components suggest internal shocks within the cloud.

Metal depletion varies across the cloud, indicating dust grain processes.

Abstract

We offer a new, more inclusive, picture of the local interstellar medium, where it is composed of a single, monolithic cloud that surrounds the Sun in all directions. Our study of velocities based on Mg II and Fe II ultraviolet absorption lines indicates that the cloud has an average motion consistent with the velocity vector of gas impacting the heliosphere and does not behave like a rigid body: gas within the cloud is being differentially decelerated in the direction of motion, and the cloud is expanding in directions perpendicular to this flow, much like the squashing of a balloon. The outer boundary of the cloud is in average 10 pc away from us but is highly irregular, being only a few parsecs away in some directions, with possibly a few extensions up to 20 pc. Average H I volume densities vary between 0.03 and 0.1 cm-3 over different sight lines. Metals appear to be significantly depleted onto grains, and there is a steady increase in this effect from the rear of the cloud to the apex of motion. There is no evidence that changes in the ionizing radiation influence the apparent abundances. Additional, secondary velocity components are detected in 60 % of the sight lines. Almost all of them appear to be interior to the volume holding the gas that we identify with the main cloud. Half of the sight lines exhibit a secondary component moving at about - 7.2 km/s with respect to the main component, which may be the signature of an implosive shock propagating toward the cloud's interior.