New Discoveries in the Galactic Neighborhood through Advances in Laboratory Astrophysics

TL;DR

This paper discusses how advances in laboratory astrophysics across multiple physics disciplines will enable major scientific discoveries about the Milky Way, nearby galaxies, and their stellar populations in the coming decade.

Contribution

It identifies key scientific opportunities and themes that laboratory astrophysics can enable for galactic research from 2010 to 2020.

Findings

New scientific opportunities in galactic structure and evolution

Advances in laboratory physics necessary for astrophysical progress

Identification of key questions and discovery areas

Abstract

As the Galactic Neighborhood (GAN) panel is fully aware, the next decade will see major advances in our understanding of this area of research. To quote from their charge, these advances will occur in studies of the galactic neighborhood, including the structure and properties of the Milky Way and nearby galaxies, and their stellar populations and evolution, as well as interstellar media and star clusters. Central to the progress in these areas are the corresponding advances in laboratory astrophysics that are required for fully realizing the GAN scientific opportunities within the decade 2010-2020. Laboratory astrophysics comprises both theoretical and experimental studies of the underlying physics and chemistry that produces the observed astrophysical processes. The 5 areas of laboratory astrophysics that we have identified as relevant to the GAN panel are atomic, molecular, solid matter, plasma, and nuclear physics. In this white paper, we describe in Section 2 some of the new scientific opportunities and compelling scientific themes that will be enabled by advances in laboratory astrophysics. In Section 3, we provide the scientific context for these opportunities. Section 4 briefly discusses some of the experimental and theoretical advances in laboratory astrophysics required to realize the GAN scientific opportunities of the next decade. As requested in the Call for White Papers, Section 5 presents four central questions and one area with unusual discovery potential. Lastly, we give a short postlude in Section 6.