The effects of projection on measuring the splashback feature
Abstract
The splashback radius R sp is a boundary of a halo that separates infalling and accreted matter. This results in a steep drop in the density profile at R st, which is a commonly adopted proxy for R sp. Observationally, R st can be measured through fitting the projected galaxy number density profile of the halo, but there has been some discrepancy between the observed and expected R st. Therefore, we investigate whether the projection of the density profile onto the plane of the sky could lead to any systematic bias in determining R st, by studying the true 3-dimensional and projected halo density profiles from the IllustrisTNG simulation. We investigate a range of projection lengths, and find that Rp st obtained from projected profiles is close to the true R* st, but has a slight decreasing trend with increasing projection length. We also quantify the prominence of the splashback feature and find how the feature shape changes with projection length.
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