Spitzer SAGE-SMC Infrared Photometry of Massive Stars in the Small Magellanic Cloud

TL;DR

This study catalogs and analyzes the infrared properties of over 5,000 massive stars in the Small Magellanic Cloud, revealing their characteristics, classifications, and mass-loss behaviors using Spitzer data.

Contribution

It provides a comprehensive infrared photometric catalog of massive stars in the SMC and introduces a new photometric method for identifying Be star candidates.

Findings

Brightest IR sources include red supergiants, sgB[e], LBVs, and Wolf-Rayet stars.

Detected a higher fraction of Oe and Be stars in the SMC compared to the LMC.

Confirmed mass-loss rate correlation with luminosity at SMC metallicity.

Abstract

We present a catalog of 5324 massive stars in the Small Magellanic Cloud (SMC), with accurate spectral types compiled from the literature, and a photometric catalog for a subset of 3654 of these stars, with the goal of exploring their infrared properties. The photometric catalog consists of stars with infrared counterparts in the Spitzer, SAGE-SMC survey database, for which we present uniform photometry from 0.3-24 um in the UBVIJHKs+IRAC+MIPS24 bands. We compare the color magnitude diagrams and color-color diagrams to those of the Large Magellanic Cloud (LMC), finding that the brightest infrared sources in the SMC are also the red supergiants, supergiant B[e] (sgB[e]) stars, luminous blue variables, and Wolf-Rayet stars, with the latter exhibiting less infrared excess, the red supergiants being less dusty and the sgB[e] stars being on average less luminous. Among the objects detected at 24 um are a few very luminous hypergiants, 4 B-type stars with peculiar, flat spectral energy distributions, and all 3 known luminous blue variables. We detect a distinct Be star sequence, displaced to the red, and suggest a novel method of confirming Be star candidates photometrically. We find a higher fraction of Oe and Be stars among O and early-B stars in the SMC, respectively, when compared to the LMC, and that the SMC Be stars occur at higher luminosities. We estimate mass-loss rates for the red supergiants, confirming the correlation with luminosity even at the metallicity of the SMC. Finally, we confirm the new class of stars displaying composite A & F type spectra, the sgB[e] nature of 2dFS1804 and find the F0 supergiant 2dFS3528 to be a candidate luminous blue variable with cold dust.