z $\sim$ 0.5时紧凑星爆星系的外流[OII]星云

arXiv - PHYS - Astrophysics of Galaxies Pub Date : 2024-09-16 DOI:arxiv-2409.10013

Serena Perrotta, Alison L. Coil, David S. N. Rupke, Wenmeng Ning, Brendan Duong, Aleksandar M. Diamond-Stanic, Drummond B. Fielding, James E. Geach, Ryan C. Hickox, John Moustakas, Gregory H. Rudnick, Paul H. Sell, Cameren N. Swiggum, Christy A. Tremonti

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引用次数: 0

摘要

高速外流在紧凑、大质量（M$_* \sim$10$^{11}$ M$_{\odot}$）、z $\sim$ 0.5、具有极端恒星形成表面密度（$\Sigma_{SFR} \sim$ 2000 M$_{odot}$ yr$^{-1}$ kpc$^{-2}$）的星系中无处不在。为了全面探测这些外溢流，我们对本研究中所有 12 个星系周围的[OII]和 MgII 发射星云进行了 Keck/KCWI 积分场光谱分析。我们发现，[OII]在追踪这些星系中低表面亮度的扩展发射方面比 MgII 更有效。OII]星云在空间上延伸到恒星之外，径向范围R$_{90}$在10到40 kpc之间。星云表现出非引力运动，显示出银河外流，其最大蓝移速度范围为-335到-1920 km s$^{-1}$。外流运动学与这些星系的爆发星形成历史相关。恒星形成爆发最晚的星系（在最近的$$ 400 km s$^{-1}$内），而爆发时间最长的星系的流出速度最低。许多星系既有高速核心，也有延伸较长、移动较慢的气体，这表明存在多次外流现象。速度较慢、规模较大的外溢发生得较早，并且在向CGM传播时速度有所加快，混合的时间尺度>$ 50 Myr。

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The Outflowing [OII] Nebulae of Compact Starburst Galaxies at z $\sim$ 0.5

High-velocity outflows are ubiquitous in compact, massive (M$_* \sim$ 10$^{11}$ M$_{\odot}$), z $\sim$ 0.5 galaxies with extreme star formation surface densities ($\Sigma_{SFR} \sim$ 2000 M$_{\odot}$ yr$^{-1}$ kpc$^{-2}$). We have previously detected and characterized these outflows using MgII absorption lines. To probe their full extent, we present Keck/KCWI integral field spectroscopy of the [OII] and MgII emission nebulae surrounding all of the 12 galaxies in this study. We find that [OII] is more effective than MgII in tracing low surface brightness, extended emission in these galaxies. The [OII] nebulae are spatially extended beyond the stars, with radial extent R$_{90}$ between 10 and 40 kpc. The nebulae exhibit non-gravitational motions, indicating galactic outflows with maximum blueshifted velocities ranging from -335 to -1920 km s$^{-1}$. The outflow kinematics correlate with the bursty star formation histories of these galaxies. Galaxies with the most recent bursts of star formation (within the last $<$ 3 Myr) exhibit the highest central velocity dispersions ($\sigma >$ 400 km s$^{-1}$), while the oldest bursts have the lowest-velocity outflows. Many galaxies exhibit both high-velocity cores and more extended, slower-moving gas indicative of multiple outflow episodes. The slower, larger outflows occurred earlier and have decelerated as they propagate into the CGM and mix on timescales $>$ 50 Myr.

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arXiv - PHYS - Astrophysics of Galaxies

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