The Effective Temperatures and Physical Properties of Magellanic Cloud Red Supergiants: The Effects of Metallicity

We use the MARCS stellar atmosphere to derive the physical properties of 36 red supergiants (RSGs) in the LMC, and 39 RSGs in the SMC using moderate-resolution optical spectrophotometry (4000-9000A) and broad-band colors (V-R, V-K). The results from the dereddened V-R colors are in good agreement with those derived from the spectrophotometry, but the dereddened V-K colors give temperatures that are 3-4% warmer for the SMC data, with the LMC and Milky Way showing a smaller but similar effect. We conclude that this discrepancy is due to the limitations of 1D models. Our newly derived effective temperatures and bolometric luminosities bring the Magellanic Cloud RSGs into good agreement with stellar evolutionary models that include the effects of rotation. A typical M2~I in the SMC is about 150 K cooler than its Galactic counterpart; one in the LMC is about 50 K cooler. This is in the sense expected due to the lower chemical abundances in the SMC and LMC, although it is not sufficient to explain the shift in average RSG spectral type seen between the SMC, LMC, and Milky Way. Instead, that is due primarily to the change in Hayashi limit with metallicity, as first proposed by Elias et al. (1985). Finally, our study confirms that many RSGs in the Magellanic Clouds are significantly more reddened than OB stars, consistent with our recent findings for Galactic stars that circumstellar dust may contribute several magnitudes of extra visual extinction.