Modeling ALMA Observations of the Warped Molecular Gas Disk in the Red Nugget Relic Galaxy NGC 384

Jonathan H. Cohn, Maeve Curliss, Jonelle L. Walsh, Kyle M. Kabasares, Benjamin D. Boizelle, Aaron J. Barth, Karl Gebhardt, Kayhan Gültekin, David A. Buote, Jeremy Darling, Andrew J. Baker, Luis C. Ho
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Abstract

We present 0$.\!\!^{\prime\prime}{22}$-resolution CO(2$-$1) observations of the circumnuclear gas disk in the local compact galaxy NGC 384 with the Atacama Large Millimeter/submillimeter Array (ALMA). While the majority of the disk displays regular rotation with projected velocities rising to $370$ km s$^{-1}$, the inner $\sim$0\farcs{5} exhibits a kinematic twist. We develop warped disk gas-dynamical models to account for this twist, fit those models to the ALMA data cube, and find a stellar mass-to-light ratio in the $H$-band of \mlabstract\ and a supermassive black hole (BH) mass ($M_{\mathrm{BH}}$) of $M_{\mathrm{BH}}$ $= (7.26^{+0.43}_{-0.48}$ [$1\sigma$ statistical] $^{+0.55}_{-1.00}$ [systematic])$\times 10^8$ $M_\odot$. In contrast to most previous dynamical $M_{\mathrm{BH}}$ measurements in local compact galaxies, which typically found over-massive BHs compared to the local BH mass$-$bulge luminosity and BH mass$-$bulge mass relations, NGC 384 lies within the scatter of those scaling relations. NGC 384 and other local compact galaxies are likely relics of $z\sim2$ red nuggets, and over-massive BHs in these relics indicate BH growth may conclude before the host galaxy stars have finished assembly. Our NGC 384 results may challenge this evolutionary picture, suggesting there may be increased scatter in the scaling relations than previously thought. However, this scatter could be inflated by systematic differences between stellar- and gas-dynamical measurement methods, motivating direct comparisons between the methods for NGC 384 and the other compact galaxies in the sample.
红金块遗迹星系 NGC 384 中翘曲分子气体盘的 ALMA 观测建模
我们利用阿塔卡马大毫米波/亚毫米波阵列(ALMA)对本地紧凑星系NGC 384中的环核气体盘进行了0$.\!!^{\prime\prime}{22}$分辨率的CO(2$-$1)观测。虽然盘的大部分显示出规则的旋转,投影速度上升到370$ kms$^{-1}$,但内部的$\sim$0\farcs{5}显示出运动学上的扭曲。我们建立了warped disk气体动力学模型来解释这种扭曲,并将这些模型与ALMA数据立方体进行拟合,发现在$H$波段的恒星质量光比为(mlabstract),超大质量黑洞(BH)质量($M_{\mathrm{BH}}$)为$M_{\mathrm{BH}}$ $= (7.26^{+0.43}_{-0.48}$ [$1\sigma$ statistical]$^{+0.55}_{-1.00}$ [systematic])$times 10^8$ $M_\odot$。与之前在局地紧凑星系中进行的大多数动力学$M_{\mathrm{BH}}$测量相比,NGC 384位于这些比例关系的散射范围之内。NGC 384和其他局部紧凑星系很可能是$z\sim2$红金块的遗迹,这些遗迹中的超大质量BH表明BH的生长可能在宿主星系恒星完成组装之前就已经结束了。我们的NGC 384结果可能会对这种演化图景提出挑战,表明缩放关系中的散差可能比以前认为的要大。然而,恒星动力学测量方法和气体动力学测量方法之间的系统性差异可能会扩大这种散差,这就促使我们对NGC 384和样本中其他紧凑星系的测量方法进行直接比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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