星系团作为内在排列示踪剂:现在与未来

Casper J. G. Vedder, N. E. Chisari
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引用次数: 1

摘要

嵌入在宇宙大尺度结构中的星系和星系团被观察到在优先方向上排列。星系对准已经被确定为宇宙信息的潜在探测器,但星系团对准在这些目的中的应用仍未被探索。观测到的星系团比星系有更高的对准幅度,但由于星系数量多得多,两种信号之间的可探测性权衡仍不清楚。我们对两种星系外巡天的星系团和星系排列进行了预测:目前可用的低红移巡天(SDSS)和即将到来的高红移巡天(LSST)。对于SDSS,我们依赖于公开可用的redMaPPer目录来描述集群样本。对于LSST,我们在从SDSS推断校准测量值的同时,对期望的计数进行估计。SDSS中的星系团通常比星系有更高的对准信噪比。对于LSST,由于相对较少的数量和不断减小的对准幅度,星团对准信号很快被红移洗掉。然而,星系团的潜在优势在于它们与弱透镜的相互作用:星系团的内在排列比星系更容易被分离出来。一般来说,通过隔离视线上的近对,可以改善星团对准的信噪比。
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Galaxy clusters as intrinsic alignment tracers: present and future
Galaxies and clusters embedded in the large-scale structure of the Universe are observed to align in preferential directions. Galaxy alignment has been established as a potential probe for cosmological information, but the application of cluster alignments for these purposes remains unexplored. Clusters are observed to have a higher alignment amplitude than galaxies, but because galaxies are much more numerous, the trade-off in detectability between the two signals remains unclear. We present forecasts comparing cluster and galaxy alignments for two extragalactic survey set-ups: a currently-available low redshift survey (SDSS) and an upcoming higher redshift survey (LSST). For SDSS, we rely on the publicly available redMaPPer catalogue to describe the cluster sample. For LSST, we perform estimations of the expected number counts while we extrapolate the alignment measurements from SDSS. Clusters in SDSS have typically higher alignment signal-to-noise than galaxies. For LSST, the cluster alignment signals quickly wash out with redshift due to a relatively low number count and a decreasing alignment amplitude. Nevertheless, a potential strong-suit of clusters is in their interplay with weak lensing: intrinsic alignments can be more easily isolated for clusters than for galaxies. The signal-to-noise of cluster alignment can in general be improved by isolating close pairs along the line of sight.
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