中文

Weak Lensing from Space II: Dark Matter Mapping

天体物理学 2009-11-07 v2

摘要

We study the accuracy with which weak lensing measurements could be made from a future space-based survey, predicting the subsequent precisions of 3-dimensional dark matter maps, projected 2-dimensional dark matter maps, and mass-selected cluster catalogues. As a baseline, we use the instrumental specifications of the Supernova/Acceleration Probe (SNAP) satellite. We first compute its sensitivity to weak lensing shear as a function of survey depth. Our predictions are based on detailed image simulations created using `shapelets', a complete and orthogonal parameterization of galaxy morphologies. We incorporate a realistic redshift distribution of source galaxies, and calculate the average precision of photometric redshift recovery using the SNAP filter set to be Delta z=0.034. The high density of background galaxies resolved in a wide space-based survey allows projected dark matter maps with a rms sensitivity of 3% shear in 1 square arcminute cells. This will be further improved using a proposed deep space-based survey, which will be able to detect isolated clusters using a 3D lensing inversion techniques with a 1 sigma mass sensitivity of approximately 10^13 solar masses at z~0.25. Weak lensing measurements from space will thus be able to capture non-Gaussian features arising from gravitational instability and map out dark matter in the universe with unprecedented resolution.

关键词

引用

@article{arxiv.astro-ph/0304418,
  title  = {Weak Lensing from Space II: Dark Matter Mapping},
  author = {Richard Massey and Jason Rhodes and Alexandre Refregier and Justin Albert and David Bacon and Gary Bernstein and Richard Ellis and Bhuvnesh Jain and Tim McKay and Saul Perlmutter and Andy Taylor},
  journal= {arXiv preprint arXiv:astro-ph/0304418},
  year   = {2009}
}

备注

20 pages, 12 figures. Accepted version: includes one extra figure and analysis concerning the optimal pixel size