邻近宇宙中星系的圆周速度和光环质量函数

Andrei Ristea, Luca Cortese, Brent Groves, A. Fraser-McKelvie, Danail Obreschkow, Karl Glazebrook
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摘要

星系的圆周速度函数(CVF)是对$\Lambda$ 冷暗物质(CDM)范式的一个基本检验,因为它可以追踪星系数量密度随圆周速度($v_{\rm{circ}}$)的变化,而圆周速度是动力学质量的一个代表。以前对CVF的观测研究要么是基于富含ion{H}{I}的星系,要么是包含低数量统计,并且探测的$v_{\rm{circ}}$范围很窄。我们利用3527个近邻宇宙星系样本,对100-350 \rm{km\ s^{-1}$之间的CVF进行了基准计算,这些星系的恒星质量在$10^{9.2}-10^{11.9}之间。}\rm{M_\{odot}}$ 之间的恒星质量。与ion{H}{I}调查的结果相比,我们发现超过150 $\rm{km\ s^{-1}}$的数量密度要大得多,这与我们样本的形态多样性有关。利用圆周速度追踪光环引力势这一事实,我们计算了光环质量函数(HMF),涵盖了以前未被探测的光环质量的1 dex(10^{11.7}-10^{12.7} \rm{M_{\odot}}$)。我们样本中的HMF,代表了M_{200}\geqslant为$10^{11.35}的星系群。\rm{M_{odot}}$,显示螺旋形态贡献了附近宇宙中67%的物质密度,而其余的则是早期类型。我们将HMF数据与基于ion{H}{I}运动学和群/星团速度散布的文献测量结合起来。我们将HMF的函数形式限制在$10^{10.5}-10^{15.5}之间。\rm{M_{odot}}$之间的HMF的函数形式,发现它与(Lambda)CDM的预言有很好的一致性。探测到的光环质量范围占附近宇宙物质密度的72%($Omega_{\rm{M,10.5-15.5}} = 0.227 \pm0.018$);单个星系占据的低于$10^{12.7}\rm{M_{\odot}}$的光环占31%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The circular velocity and halo mass functions of galaxies in the nearby Universe
The circular velocity function (CVF) of galaxies is a fundamental test of the $\Lambda$ Cold Dark Matter (CDM) paradigm as it traces the variation of galaxy number densities with circular velocity ($v_{\rm{circ}}$), a proxy for dynamical mass. Previous observational studies of the CVF have either been based on \ion{H}{I}-rich galaxies, or encompassed low-number statistics and probed narrow ranges in $v_{\rm{circ}}$. We present a benchmark computation of the CVF between $100-350\ \rm{km\ s^{-1}}$ using a sample of 3527 nearby-Universe galaxies, representative for stellar masses between $10^{9.2}-10^{11.9} \rm{M_{\odot}}$. We find significantly larger number densities above 150 $\rm{km\ s^{-1}}$ compared to results from \ion{H}{I} surveys, pertaining to the morphological diversity of our sample. Leveraging the fact that circular velocities are tracing the gravitational potential of halos, we compute the halo mass function (HMF), covering $\sim$1 dex of previously unprobed halo masses ($10^{11.7}-10^{12.7} \rm{M_{\odot}}$). The HMF for our sample, representative of the galaxy population with $M_{200}\geqslant10^{11.35} \rm{M_{\odot}}$, shows that spiral morphologies contribute 67 per cent of the matter density in the nearby Universe, while early types account for the rest. We combine our HMF data with literature measurements based on \ion{H}{I} kinematics and group/cluster velocity dispersions. We constrain the functional form of the HMF between $10^{10.5}-10^{15.5} \rm{M_{\odot}}$, finding a good agreement with $\Lambda$CDM predictions. The halo mass range probed encompasses 72$\substack{+5 \\ -6}$ per cent ($\Omega_{\rm{M,10.5-15.5}} = 0.227 \pm 0.018$) of the matter density in the nearby Universe; 31$\substack{+5 \\ -6}$ per cent is accounted for by halos below $10^{12.7}\rm{M_{\odot}}$ occupied by a single galaxy.
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