MODELING X–RAY EMISSION OF A STRAIGHT JET: PKS 0920-397

Author/Creator ORCID

Date

2012-01

Department

Program

Citation of Original Publication

Schwartz, Dan and Massaro, Francesco and A.siemiginowska, and M.worrall, D. and M.birkinshaw, and H.marshall, and D.evans, and Perlman, Eric and M.gelbord, J. and J.lovell, J. and Godfrey, L. and G.bicknell, and Ojha, Rajendra and Hardcastle, Martin and Jester, Sebastian and Jorstad, Svetlana and L.stawarz, MODELING X–RAY EMISSION OF A STRAIGHT JET: PKS 0920-397, Vol 19, International Journal of Modern Physics D, 10.1142/S0218271810017147

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Public Domain Mark 1.0
This work was written as part of one of the author's official duties as an Employee of the United States Government and is therefore a work of the United States Government. In accordance with 17 U.S.C. 105, no copyright protection is available for such works under U.S. Law

Subjects

Abstract

We summarize a study of PKS 0920-397 using our 42 ks Chandra observation in conjunction with our ATCA 20GHz image, and HST/ACS F814W and F475W images. We investigate the hypothesis that the jet X–ray emission is due to inverse-Compton (IC) scattering on the cosmic microwave background (CMB) from the same population of relativistic electrons that give rise to the radio emission. To calculate parameters intrinsic to the source, one must finesse the fact that we do not know the true angle of the jet to our line of sight. Typical assumptions are that the Doppler factor equals the bulk Lorentz factor, or that the Lorentz factor takes some fixed numerical value. While giving useful estimates, neither assumption can be exact in general. We try different constraints to determine the jet quantities. It is plausible that the kinetic flux is constant along the jet, prior to a terminal hotspot or lobe, and with minimal bending of the jet. Alternatively, because PKS 0920-397 appears straight in projection on the sky, we might assume the jet maintains a constant angle to our line of sight. Either approach gives bulk Lorentz factors of 6 to 8, with kinetic energy flux of order 10⁴⁶ erg s⁻¹, and with the jet at an angle 2° to 4° from our line of sight.