低红移莱曼连续巡天:恒星反馈和 ISM 几何在 LyC 逃逸中的作用

Sophia R. Flury, Anne E. Jaskot, Alberto Saldana-Lopez, M. S. Oey, John Chisholm, Ricardo Amorín, Omkar Bait, Sanchayeeta Borthakur, Cody Carr, Henry C. Ferguson, Mauro Giavalisco, Matthew Hayes, Timothy Heckman, Alaina Henry, Zhiyuan Ji, Lena Komarova, Floriane Leclercq, Alexandra Le Reste, Stephan McCandliss, Rui Marques-Chaves, Göran Östlin, Laura Pentericci, Swara Ravindranath, Michael Rutkowski, Claudia Scarlata, Daniel Schaerer, Trinh Thuan, Maxime Trebitsch, Eros Vanzella, Anne Verhamme, Bingjie Wang, Gábor Worseck, Xinfeng Xu
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引用次数: 0

摘要

宇宙学的基本问题之一是宇宙在超过$z/sim6$时发生再电离的起源和机制。为了解决这个问题,过去十年的许多研究都集中在泄漏电离辐射(莱曼连续波或LyC)的局域($z\sim0.3$)星系上。然而,视线效应和数据质量阻碍了对LyC逃逸本质的深入洞察。为了规避这些限制,我们分析了在 $z\sim0.3$ 时对 89 个星系的 LyC 进行的 {\it HST}/COS 观测的综合样本。通过对连续波的拟合,我们获得了有关潜在恒星群和中性ISM几何形状的信息。我们发现,大多数未探测到的LyC并没有泄漏可观的LyC($f_{esc}^{\rmLyC}5$\%),这也需要年轻恒星和电离反馈的汇合。两阶段的恒星形成爆发可以促进这种最佳的LyC逃逸情景。
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The Low-Redshift Lyman Continuum Survey: The Roles of Stellar Feedback and ISM Geometry in LyC Escape
One of the fundamental questions of cosmology is the origin and mechanism(s) responsible for the reionization of the Universe beyond $z\sim6$. To address this question, many studies over the past decade have focused on local ($z\sim0.3$) galaxies which leak ionizing radiation (Lyman continuum or LyC). However, line-of-sight effects and data quality have prohibited deeper insight into the nature of LyC escape. To circumvent these limitations, we analyze stacks of a consolidated sample of {\it HST}/COS observations of the LyC in 89 galaxies at $z\sim0.3$. From fitting of the continuum, we obtain information about the underlying stellar populations and neutral ISM geometry. We find that most LyC non-detections are not leaking appreciable LyC ($f_{esc}^{\rm LyC}<1$\%) but also that exceptional cases point to spatial variations in the LyC escape fraction $f_{esc}^{\rm LyC}$. Stellar populations younger than 3 Myr lead to an increase in ionizing feedback, which in turn increases the isotropy of LyC escape. Moreover, mechanical feedback from supernovae in 8-10 Myr stellar populations is important for anisotropic gas distributions needed for LyC escape. While mechanical feedback is necessary for any LyC escape, high $f_{esc}^{\rm LyC}$ ($>5$\%) also requires a confluence of young stars and ionizing feedback. A two-stage burst of star formation could facilitate this optimal LyC escape scenario.
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