Radio Recombination Line Observations toward the Fermi Bubble

Research notes of the AAS Pub Date : 2024-07-23 DOI:10.3847/2515-5172/ad6661
Matteo Luisi, Dhanesh Krishnarao, Natalie O. Butterfield, Loren D. Anderson, Pedro Salas, Andrew J. Fox, Felix J. Lockman and Robert A. Benjamin
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Abstract

We use Green Bank Telescope radio recombination line (RRL) observations to constrain the morphology of warm ionized gas in the Fermi Bubble. Our limits on hydrogen RRL emission allow us to constrain the emission measure of the ionized gas and to estimate the beam filling factor of previous Wisconsin H-Alpha Mapper observations. Our results indicate that the warm ionized gas on the Fermi Bubble boundary spans at least 1000 pc2 with a depth of less than a pc, suggesting either a sheet-like structure or a structure consisting of many small clumps. Our data will enable us to properly calibrate future Hα observations and aid in calculating the Lyman continuum flux needed to maintain the ionized gas.
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对费米泡的射电重组线观测
我们利用绿岸望远镜的射电重组线(RRL)观测结果来约束费米泡中暖电离气体的形态。我们对氢RRL发射的限制使我们能够约束电离气体的发射测量,并估算出之前Wisconsin H-Alpha Mapper观测的光束填充因子。我们的结果表明,费米气泡边界上的暖电离气体至少横跨 1000 pc2,深度小于 1 pc,这表明这是一个片状结构或由许多小团块组成的结构。我们的数据将使我们能够正确校准未来的 Hα 观测数据,并帮助计算维持电离气体所需的莱曼连续通量。
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Research notes of the AAS
Research notes of the AAS
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