The Astrophysical Journal Letters (Jan 2024)

Morphological Evidence for the eROSITA Bubbles Being Giant and Distant Structures

  • Teng Liu,
  • Andrea Merloni,
  • Jeremy Sanders,
  • Gabriele Ponti,
  • Andrew Strong,
  • Michael C. H. Yeung,
  • Nicola Locatelli,
  • Peter Predehl,
  • Xueying Zheng,
  • Manami Sasaki,
  • Michael Freyberg,
  • Konrad Dennerl,
  • Werner Becker,
  • Kirpal Nandra,
  • Martin Mayer,
  • Johannes Buchner

DOI
https://doi.org/10.3847/2041-8213/ad47e0
Journal volume & issue
Vol. 967, no. 2
p. L27

Abstract

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There are two contradictory views of the eROSITA bubbles: either a 10 ^4 pc scale pair of giant bubbles blown by the Galactic center (GC), or a 10 ^2 pc scale local structure coincidentally located in the direction of GC. A key element of this controversy is the distance to the bubbles. Based on the 3D dust distribution in the Galactic plane, we found three isolated, distant (500–800 pc) clouds at intermediate Galactic latitudes. Their projected morphologies perfectly match the X-ray shadows on the defining features of the north eROSITA bubble, i.e., the North Polar Spur (NPS) and the Lotus Petal Cloud (LPC), indicating that both the NPS and LPC are distant, with a distance lower limit of nearly 1 kpc. In the X-ray-dark region between the NPS and LPC, we found a few polarized radio arcs and attributed them to the bubble’s shock front. These arcs match up perfectly with the outer border of the NPS and LPC and provide a way to define the bubble’s border. The border defined in this way can be well described by the line-of-sight tangent of a 3D skewed cup model rooted in the GC. We conclude that, instead of being two independent, distant features, the NPS and LPC compose a single, giant bubble, which therefore is most plausibly a 10 kpc scale bubble rooted at the GC.

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