SIMBAD references

2015A&A...578A..24G - Astronomy and Astrophysics, volume 578A, 24-24 (2015/6-1)

Magnetic fields of the W4 superbubble.

GAO X.Y., REICH W., REICH P., HAN J.L. and KOTHES R.

Abstract (from CDS):

Superbubbles and supershells are the channels for transferring mass and energy from the Galactic disk to the halo. Magnetic fields are believed to play a vital role in their evolution. We study the radio continuum and polarized emission properties of the W4 superbubble to determine its magnetic field strength. New sensitive radio continuum observations were made at λ6cm, λ11cm, and λ21cm. The total intensity measurements were used to derive the radio spectrum of the W4 superbubble. The linear polarization data were analysed to determine the magnetic field properties within the bubble shells. The observations show a multi-shell structure of the W4 superbubble. A flat radio continuum spectrum that stems from optically thin thermal emission is derived from 1.4GHz to 4.8GHz. By fitting a passive Faraday screen model and considering the filling factor fne, we obtain the thermal electron density ne=1.0/sqrt(fne) (±5%)cm–3 and the strength of the line-of-sight component of the magnetic field B//=-5.0/sqrt(fne)(±10%)µG (i.e. pointing away from us) within the western shell of the W4 superbubble. When the known tilted geometry of the W4 superbubble is considered, the total magnetic field Btot in its western shell is greater than 12µG. The electron density and the magnetic field are lower and weaker in the high-latitude parts of the superbubble. The rotation measure is found to be positive in the eastern shell but negative in the western shell of the W4 superbubble, which is consistent with the case where the magnetic field in the Perseus arm is lifted up from the plane towards high latitudes. The magnetic field strength and the electron density we derived for the W4 superbubble are important parameters for evolution models of superbubbles breaking out of the Galactic plane.

Abstract Copyright:

Journal keyword(s): ISM: magnetic fields - radio continuum: ISM - ISM: individual objects: W4 superbubble

Simbad objects: 9

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2019.09.17-01:27:54

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