The splashback radius of groups and clusters of galaxies at low redshifts

Proceedings of The Multifaceted Universe: Theory and Observations - 2022 — PoS(MUTO2022) Pub Date : 2022-10-03 DOI:10.22323/1.425.0024

F. Kopylova, A. Kopylov

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Abstract

We present a study of the distribution of galaxies along the radius of 157 groups and clusters of galaxies (200 km s − 1 < 𝜎 < 1100 km s − 1 ) of the local Universe (0.01 < 𝑧 < 0.1). We introduced a new boundary of galaxy systems and identiﬁed it with the splashback radius 𝑅 𝑠𝑝 . We also identiﬁed the central region of galaxy systems with a radius of 𝑅 𝑐 . These radii are deﬁned by the observed integrated distribution of the total number of galaxies depending on the squared distance from the center of the groups/clusters coinciding, as a rule, with the brightest galaxy. We show that the radius 𝑅 𝑠𝑝 is proportional to the 𝑅 200 𝑐 (radius of the virialized region of a galaxy cluster) and to the radius of the central region 𝑅 𝑐 with a slope close to 1. Among the obtained dependences of the radii on X-ray luminosity, the log 𝑅 𝑠𝑝 - log 𝐿 𝑋 relation has the lowest scatter. We measured < 𝑅 𝑠𝑝 > = 1 . 67 ± 0 . 05 Mpc for the total sample, < 𝑅 𝑠𝑝 > = 1 . 14 ± 0 . 14 Mpc for galaxy groups with 𝜎 ≤ 400 km s − 1 , < 𝑅 𝑠𝑝 > = 2 . 00 ± 0 . 20 Mpc for galaxy clusters with 𝜎 > 400 km s − 1 . We found the average ratio of the radii 𝑅 𝑠𝑝 / 𝑅 200 𝑐 = 1 . 40 ± 0 . 02 or 𝑅 𝑠𝑝 / 𝑅 200 𝑚 = 0 . 88 ± 0 . 02. The Multifaceted Universe: Theory and Observations - 2022 (MUTO2022)

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低红移的星系团和星系团的反溅半径

我们研究了局部宇宙(0.01 < 0.001 < 0.1)157个星系团和星系团(200 km s−1 < φ < 1100 km s−1)的星系分布。我们引入了一个新的星系系统边界，并用反溅半径𝑅𝑠𝑝来识别它。我们还确定了半径为𝑅𝑐的星系系统的中心区域。这些半径是由观测到的星系总数的综合分布来定义的，这取决于与最亮的星系重合的星系群/星系团中心的平方距离。我们表明，半径𝑅𝑠𝑝与𝑅200𝑐(星系团活跃区域的半径)和中心区域的半径𝑅𝑐成正比，斜率接近1。在得到的半径与x射线光度的关系中，对数𝑅𝑠𝑝-对数𝐿𝑋关系的散射最小。我们测量了<𝑅𝑠𝑝> = 1。67±0。对于总样本，<𝑅𝑠𝑝> = 1。14±0。14 Mpc对于≤400 km s−1，<𝑅𝑠𝑝> = 2的星系群。00±0。20 Mpc对于≥400km s−1的星系团。我们发现半径的平均比率𝑅𝑠𝑝/𝑅200𝑐= 1。40±0。02或𝑅𝑠𝑝/𝑅200𝑚= 0。88±0。02. 多面宇宙:理论与观测- 2022 (MUTO2022)

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Proceedings of The Multifaceted Universe: Theory and Observations - 2022 — PoS(MUTO2022)

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