The origin of the Fermi bubbles, which constitute two gamma-ray emitting lobes above and below the Galactic plane, remains unclear. The possibility that this Fermi bubbles gamma-ray emission originates from hadronic cosmic rays advected by a subsonic Galactic outflow, or breeze, is here explored. The simulation of a breeze solution and subsequent cosmic ray transport is carried out using the hydrodynamical code, PLUTO, in combination with a cosmic ray transport code. The Galactic outflow model obtained is found to be compatible with both inferences of the decelerating outflow velocity profile of the gas in the Fermi bubbles region, and evidence for the presence of a large amount of hot ionised gas out in the Galactic halo region. Although simple, this model is found to be able to reproduce the observed Fermi-LAT energy flux at high Galactic latitudes. Following these results a prediction concerning the gamma-ray emission for 1-3 TeV photons is made for future comparison with CTA/SWGO measurements.
The origin of the Fermi bubbles, which constitute two gamma-rays emitting lobes above and below the Galactic plane, remains unclear. The possibility that the Fermi bubble gamma-rays emission originates from hadronic cosmicrays advected by a subsonic Galactic outflow is explored. Such a solution is called a Galactic breeze. This model is motivated by UV absorption line observations of cold clouds expanding from the Galactic center to high latitudes. For this purpose the hydrodynamical code PLUTO has been used in combination with a cosmic ray transport code. A model of the Galactic gravitational potential has been determined through constraints derived from the Gaia second data release. It is found that a Galactic breeze can be collimated by the surrounding gas and is indeed able to reproduce the observed Fermi-LAT energy flux at high Galactic latitudes. Following these results a prediction concerning the gamma-rays emission for 1-3 TeV photons is made for future comparison with CTA/SWGO measurements.
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