http://arxiv.org/abs/1706.08650
The radial number density and flattening (also known as axis-ratio) profile of the Milky Way’s stellar halo is measured with $\mathrm{5351}$ LAMOST DR3 metal-poor K giants([Fe/H]$<-1$) using a nonparametric method, which is model independent and avoids the influence of the halo substucture to a large extent. We find that the number density profile can be described well by a single power law with index of $5.03^{+0.64}_{-0.64}$ with radially varying flattening. The stellar halo traced by LAMOST K giants is more flattened at smaller radii, and becomes nearly spherical at larger radii. The flattening $q$ is about 0.64, 0.8, 0.96 at $r=15$, 20 and 30 kpc ($r=\sqrt{R^2+\left[Z/q\left(r\right)\right]^2}$). Moreover the Sagittarius north-leading-arm and south-trailing-arm significantly appear in the residual map of density distribution. In addition, an unknown overdensity is identified in the residual map at (R,Z)=(30,15) kpc.
Y. Xu, C. Liu, X. Xue, et. al.
Wed, 28 Jun 17
-24/62
Comments: 14 pages, 22 figures, Submitted to MNRAS