Galactic Stellar Halo Luminosity Function
Abstract
We measure the luminosity function (LF) of the Milky Way's stellar halo, using a magnitude complete, distance limited sample of stars from Gaia DR3. Stars with high transverse velocities are selected, to isolate a high purity sample of the local halo. We adopt a cutoff transverse velocity of 250\,km\,s-1, yielding 24,471 stars, and compute the halo LF, taking into account the effects of sample selection criteria. The LF displays similar features as are found in the well-probed LF of nearby, metal-rich disk stars, showing a strong peak at an absolute magnitude of around MG=10, and a flattening near MG7 (Wielen dip). The Gaia sample yields the first measurement of the LF continuously from the dimmest main sequence halo stars (subdwarfs) at an absolute MG magnitude near 13 mag to bright giants at MG-3. We obtain a local stellar halo number density of 1.7×10-4 stars\,pc-3 and disk-to-halo ratio by stellar number density of 480:1. We convert the Gaia G band measurements for our sample stars to Johnson-Kron-Cousins V band, compute the V-band halo LF, and compare it to previous studies published over many decades that cover a wide range of techniques used. We discuss applications of the LF to the measurement of the luminosity and stellar mass of the Milky Way halo.
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