Mapping the Supernovae Driven Winds of the Large Magellanic Cloud in Hα Emission I
Abstract
We present the first spectroscopically resolved \ emission map of the Large Magellanic Cloud's (LMC) galactic wind. By combining new Wisconsin H-alpha Mapper (WHAM) observations (I Hα10~ mR) with existing \ emission observations, we have (1) mapped the LMC's near-side galactic wind over a local standard of rest (LSR) velocity range of +50 vLSR+250~ km~ s-1, (2) determined its morphology and extent, and (3) estimated its mass, outflow rate, and mass-loading factor. We observe \ emission from this wind to typically 1-degree off the LMC's \ disk. Kinematically, we find that the diffuse gas in the warm-ionized phase of this wind persists at both low (100~ km~ s-1) and high (100~ km~ s-1) velocities, relative to the LMC's \ disk. Furthermore, we find that the high-velocity component spatially aligns with the most intense star-forming region, 30~Doradus. We, therefore, conclude that this high-velocity material traces an active outflow. We estimate the mass of the warm (Te≈104~ K) ionized phase of the near-side LMC outflow to be (M ionized/M)=7.510.15 for the combined low and high velocity components. Assuming an ionization fraction of 75\% and that the wind is symmetrical about the LMC disk, we estimate that its total (neutral and ionized) mass is (M total/M)=7.93, its mass-flow rate is M outflow≈1.43~M~ yr-1, and its mass-loading factor is η≈4.54. Our average mass-loading factor results are roughly a factor of 2.5 larger than previous \ imaging and UV~absorption line studies, suggesting that those studies are missing nearly half the gas in the outflows.
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