Ionizing photons produced by massive stars in SMC-N88a

M. T. Krilich, C. G. Díaz

Published 2024-05-31Version 1

The H II region N88a in the Small Magellanic Cloud (SMC) is a spherical region of $1.5~\mathrm{pc}$ diameter, with high concentration of gas and dust, and at least four massive stars within it. Previous studies suggest that the four known sources may be insufficient to ionize the region and explain the nebular emission. In this contribution we analyze the ionizing photon production of the four known sources within the H II region. We compared the available photometry in the literature with the spectral energy distribution calculated for the ``Potsdam Wolf-Rayet'' (PoWR) models of massive stars for a wide range of dust extinction coefficient (Av). In particular, we selected models of OB-type atmospheres with SMC metallicity and compared the ionizing photon flux prediction with previous estimates based on the nebular emission of the H {\sc ii} region. We found that the Av values that best reproduce the photometry of each source vary from 0.82 to 3.84, increasing toward the dust band that runs through the nebula. In addition, all four sources are compatible with O-type stars with $\mathrm{T_{eff}} > 40 ~\mathrm{kK}$ and intrinsic ratios $\mathrm{F(LyC)/F(UV)}>1$. Lastly, the total ionizing photon rate predicted by the hottest models is $\mathrm{log(Q_H)} > 49.6 ~\mathrm{ph\ s}^{-1}$, which suggests that the stars could maintain the ionization state of the nebula.