Josh Kingsbury scite author profile

Josh Kingsbury

2Publications

9Citation Statements Received

84Citation Statements Given

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Columbus State Community College

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Paradigm shift in understanding the Galactic eROSITA Bubbles

Gupta¹,

Mathur²,

Kingsbury³

et al. 2022

Preprint

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The magnificent bubbles at the Galactic center provide a great channel to understand the effects of feedback on galaxy evolution. The newly discovered eROSITA bubbles show enhanced X-ray emission from the shells around bubbles. Previous works assumed that the X-ray emitting gas in the shells has a single temperature component and that they trace the shock-heated lower-temperature Galactic halo gas. Here we show that the thermal structure of the eROSITA bubble shells is more complex. Using Suzaku observations we find with high confidence that the X-ray emission from the shells is best described by a twotemperature thermal model, one near Galaxy's virial temperature at kT ≈ 0.2 keV and the other at super-virial temperatures ranging between kT = 0.4 − 1.1 keV. Furthermore, we show that temperatures of the virial and super-virial components are similar in the shells and in the ambient medium, although the emission measures are significantly higher in the shells. We argue that the X-ray bright eROSITA bubble shells are the signature of compressed isothermal radiative shocks. The age of the bubbles is constrained to 70-130 Myr. This expansion timescale, as well as the observed non-solar Ne/O and Mg/O ratios, favor the stellar feedback models for the formation of the Galactic bubbles, settling a long-standing debate on the origin of the Galactic bubbles.

show abstract

Paradigm shift in understanding the Galactic eROSITA Bubbles

Gupta

Mathur

Kingsbury

et al. 2022

Preprint

View full text Add to dashboard Cite

The magnificent bubbles at the Galactic center provide a great channel to understand the effects of feedback on galaxy evolution. The newly discovered eROSITA bubbles show enhanced X-ray emission from the shells around bubbles. Previous works assumed that the X-ray emitting gas in the shells has a single temperature component and that they trace the shock-heated lower-temperature Galactic halo gas. Here we show that the thermal structure of the eROSITA bubble shells is more complex. Using Suzaku observations we find with high confidence that the X-ray emission from the shells is best described by a two-temperature thermal model, one near Galaxy's virial temperature at ~0.2 keV and the other at super-virial temperatures ranging between kT = 0.4-1.1 keV. Furthermore, we show that temperatures of the virial and super-virial components are similar in the shells and in the ambient medium, although the emission measures are significantly higher in the shells. We argue that the X-ray bright eROSITA bubble shells are the signature of compressed isothermal radiative shocks. The age of the bubbles is constrained to 70-130 Myr. This expansion timescale, as well as the observed non-solar Ne/O and Mg/O ratios, favor the stellar feedback models for the formation of the Galactic bubbles, settling a long-standing debate on the origin of the Galactic bubbles.

show abstract

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Josh Kingsbury

Paradigm shift in understanding the Galactic eROSITA Bubbles

Paradigm shift in understanding the Galactic eROSITA Bubbles

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