Alapfogalmak
The super-virial (∼10^7 K) and virial (∼10^6 K) temperature gas in the circumgalactic medium of the Milky Way occupy disk-like extraplanar regions, likely produced by stellar feedback in and around the Galactic disk.
Kivonat
The paper investigates the origin and structure of the hot gas (∼10^7 K) detected in emission in the circumgalactic medium (CGM) of the Milky Way, in addition to the previously known virial temperature (∼10^6 K) gas.
Key highlights:
- Observational data suggests the ∼10^7 K "super-virial" and ∼10^6 K "virial" temperature gas occupy disk-like extraplanar regions around the Galactic disk, rather than being distributed in a spherical halo.
- The authors perform MCMC analysis to determine the parameters (scale height, scale radius, central density) of these disk-like extraplanar regions for both the super-virial and virial temperature gas.
- Hydrodynamical simulations show the ∼10^7 K super-virial gas is likely produced by stellar feedback and outflows from the Galactic disk, forming a disk-like extraplanar structure.
- The super-virial and virial temperature gas in the extraplanar regions is metal-enriched and not in hydrostatic equilibrium with the halo, but rather in a dynamical state.
- The origin of the "super-virial" gas observed in emission is distinct from the "super-virial" gas detected in absorption, which the model cannot fully explain.
Statisztikák
The Milky Way halo has a virial temperature of ~3 × 10^6 K.
The central density of the virial temperature halo gas is 8.8 × 10^-4 cm^-3.
The total mass in the extra-planar virial and super-virial phases is 1.7 × 10^8 M⊙ and 3.5 × 10^7 M⊙ respectively.
Idézetek
"The presence of the ≈10^6 K gas in the circumgalactic medium of the Milky Way has been well established."
"Recent observations have, however, indicated the presence of ∼10^7 K (0.8 keV) gas in addition to the gas at lower temperatures."
"We show that both the 'virial' and the 'super-virial' temperature gas as observed in emission occupy disk-like extraplanar regions, in addition to the diffuse virial temperature gas filling the halo of the Milky Way."