Digging deeper into NGC 6868 II: ionized gas and excitation mechanism

arXiv - PHYS - Astrophysics of Galaxies Pub Date : 2024-09-12 DOI:arxiv-2409.08047

João P. V. Benedetti, Rogério Riffel, Tiago Ricci, Rogemar A. Riffel, Miriani Pastoriza, Marina Trevisan, Luis G. Dahmer-Hahn, Daniel Ruschel-Dutra, Alberto Rodríguez-Ardila, Anna Ferré-Mateu, Alexandre Vazdekis, João Steiner

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Abstract

We studied the ionized gas in the inner region ($\sim680\times470$ pc$^2$) of the galaxy NGC 6868 using Gemini/GMOS integral field unit observations. Channel maps reveal complex kinematics and morphology, indicating multiple processes at work in NGC 6868. Through emission-line fitting, we identified two ubiquitous components in our data: a narrow ($\sigma\sim110$ km s$^{-1}$) tracing an ionized gas disc and a broad component ($\sigma\sim300$ km s$^{-1}$) mainly associated with inflowing/outflowing gas. The derived V-band reddening shows a spatial distribution consistent with that obtained from stellar population synthesis, although with generally higher values. For the first time, we measured the electron temperature in NGC 6868, finding values ranging from $\sim 14000$ K in the central region to $\gtrsim20000$ K with an outward increasing temperature gradient. The electron density map exhibits an inverse relationship, with central values reaching $N_e\sim4000$ cm$^{-3}$ for the broad component decreasing to $N_e\sim100$ cm$^{-3}$ towards the edges of the field of view. Using BPT diagrams, we found that all spaxels are consistent with both AGN and shock ionization. However, when this information is combined with our kinematic and temperature findings, and further supported by the WHAN diagram, we argue that an AGN is the dominant ionisation mechanism in the central region of NGC 6868, while the extended outer component is ionized by a combination of hot low-mass evolved stars and shocks. According to our findings, shocks play a significant role in the ionization balance of this galaxy.

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深入研究 NGC 6868 II：电离气体和激发机制

我们利用双子座/GMOS 积分场单元观测对 NGC 6868 星系内部区域（$\sim680\times470$ pc$^2$）的电离气体进行了研究。通道图显示了复杂的运动学和形态学，表明在NGC 6868中有多个过程在起作用。通过发射线拟合，我们在数据中发现了两个无处不在的成分：一个窄成分（$\sigma\sim110$ km s$^{-1}$）追踪负离子化气体盘，另一个宽成分（$\sigma\sim300$ km s$^{-1}$）主要与流入/流出气体有关。得出的V波段红度的空间分布与恒星种群合成得出的红度一致，但数值普遍较高。我们首次测量了NGC 6868的电子温度，发现其数值从中心区域的$\sim 14000$ K到$\gtrsim 20000$ K，温度梯度向外递增。电子密度图显示出一种反比关系，中心值达到 $N_e\sim4000$ cm$^{-3}$，宽分量值则下降到视场边缘的 $N_e\sim100$ cm$^{-3}$。利用 BPT 图，我们发现所有的 Spaxels 都与 AGN 和冲击电离一致。然而，当把这些信息与我们的运动学和温度研究结果结合起来，并得到 WHAN 图的进一步支持时，我们认为在 NGC 6868 的中心区域，AGN 是主要的电离机制，而扩展的外围部分则是由热的低质量演化恒星和冲击波共同电离的。根据我们的发现，冲击在这个星系的电离平衡中起着重要作用。

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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arXiv - PHYS - Astrophysics of Galaxies

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