most联盟调查5:eROSITA星系团红移调查

IF 0.3 Q4 COMMUNICATION
A. Finoguenov, A. Merloni, J. Comparat, K. Nandra, M. Salvato, E. Tempel, A. Raichoor, J. Richard, J. Kneib, A. Pillepich, M. Sahl'en, P. Popesso, P. Norberg, R. McMahon
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引用次数: 12

摘要

星系团和星系团是当前天文学研究的焦点,因为它们在确定星系环境影响方面的作用以及它们为宇宙学提供的限制。光谱伦琴伽玛天文台上的eROSITA x射线望远镜将于2019年发射,当4MOST开始运行时,它将完成对整个天空的8次扫描。该实验将通过热星系间介质的x射线发射来探测星系群和星系团。4MOST eROSITA星系团红移调查的目的是提供40,000个星系团和星系团的x射线发射光学对应的光谱红移,以便对总质量进行动态估计并测量成员星系的性质。该调查的目的是获得在红移$z > 0.7$的光度计上确定的最亮星系团的精确红移测量。在较低的红移($z < 0.7$)下,该计划的目标是对每个星系团的15个成员星系进行采样,并使动态质量测量能够为宇宙学实验校准星系团。在$z < 0.2$时,eROSITA也将探测到来自星系群和细丝的x射线发射。来自这次调查的大多数光谱数据将被用于星系团的光学识别,直到eROSITA的质量检测极限为10^{13}M_\odot$,以及对最大细丝的检测,以进行x射线发射的开创性研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
4MOST Consortium Survey 5: eROSITA Galaxy Cluster Redshift Survey
Groups and clusters of galaxies are a current focus of astronomical research owing to their role in determining the environmental effects on galaxies and the constraints they provide to cosmology. The eROSITA X-ray telescope on board the Spectrum Roentgen Gamma observatory will be launched in 2019 and will have completed eight scans of the full sky when 4MOST starts operating. The experiment will detect groups and clusters of galaxies through X-ray emission from the hot intergalactic medium. The purpose of the 4MOST eROSITA Galaxy Cluster Redshift Survey is to provide spectroscopic redshifts of the optical counterparts to the X-ray emission from 40,000 groups and clusters of galaxies so as to perform dynamical estimates of the total mass and to measure the properties of the member galaxies. The survey aims to obtain precise redshift measurements of the photometrically identified brightest cluster galaxies at redshift $z > 0.7$. At lower redshifts ($z < 0.7$), the programme aims to sample over 15 member galaxies per cluster and enable dynamical mass measurements to calibrate the clusters for cosmological experiments. At $z < 0.2$, eROSITA will also detect X-ray emission from galaxy groups and filaments. 4MOST spectroscopic data from the survey will be used for optical identification of galaxy groups down to eROSITA's mass detection limits of $10^{13} M_\odot$, as well as the detection of the largest filaments for pioneering studies of their X-ray emission.
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Jurnal The Messenger
Jurnal The Messenger COMMUNICATION-
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