Spectral Evidence of Solar Neighborhood Analogs in CALIFA Galaxies

TL;DR

This paper presents a new non-parametric spectral matching method to identify solar neighborhood analogs in CALIFA galaxy surveys, revealing their distribution and properties relative to the Milky Way.

Contribution

The authors introduce a novel spectral matching technique to find and analyze solar neighborhood analogs in external galaxies, linking local stellar properties to galaxy-wide characteristics.

Findings

SNAs are mostly found in S(B)a-S(B)c galaxies

SNAs are located in a ring-like structure scaled with galaxy size

Properties of SNAs agree with literature on the solar neighborhood

Abstract

We introduce a novel non-parametric method to find solar neighborhood analogs (SNAs) in extragalactic IFS surveys. The main ansatz is that the physical properties of the solar neighborhood (SN) should be encoded in its optical stellar spectrum. We assume that our best estimate of such spectrum is the one extracted from the analysis performed by the Code for Stellar properties Heuristic Assignment (\textsc{CoSHA}) from the MaStar stellar library. It follows that finding SNAs in other galaxies consist in matching, in a $\chi^2$ sense, the SN reference spectrum across the optical extent of the observed galaxies. We apply this procedure to a selection of CALIFA galaxies, by requiring a close to face-on projection, relative isolation and non-AGN. We explore how the local and global properties of the SNAs (stellar age, metallicity, dust extinction, mass-to-light ratio, stellar surface mass and star-formation densities and galactocentric distance) and their corresponding host galaxies (morphological type, total stellar mass, star-formation rate, effective radius) compare with those of the SN and the Milky Way (MW). We find that SNAs are located preferentially in S(B)a~--~S(B)c galaxies, in a ring-like structure, which radii seems to scale with the galaxy size. Despite the known sources of systematics and errors, {most} properties present a considerable agreement with the literature on the SN. We conclude that the solar neighborhood is relatively common in our sample of SNAs. Our results warrants a systematic exploration of correlations among the physical properties of the SNAs and their host galaxies. We reckon that our method should inform current models of the galactic habitable zone in our MW and other galaxies.