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3D hydrodynamic simulations of large-scale precessing jets: radio morphology

M. A. Horton, Martin Krause, M. J. Hardcastle

2020Monthly Notices of the Royal Astronomical Society37 citationsDOIOpen Access PDF

Abstract

ABSTRACT The prospect of relativistic jets exhibiting complex morphologies as a consequence of geodetic precession has long been hypothesized. We have carried out a 3D hydrodynamics simulation study varying the precession cone angle, jet injection speed, and number of turns per simulation time. Using proxies for the radio emission we project the sources with different inclinations to the line of sight to the observer. We find that a number of different precession combinations result in characteristic ‘X’ shaped sources which are frequently observed in radio data, and some precessing jet morphologies may mimic the morphological signatures of restarting radio sources. We look at jets ranging in scale from tens to hundreds of kiloparsecs and develop tools for identifying known precession indicators of point symmetry, curvature, and jet misalignment from the lobe axis and show that, based on our simulation sample of precessing and non-precessing jets, a radio source that displays any of these indicators has a 98 per cent chance of being a precessing source.

Topics & Concepts

PrecessionPhysicsAstrophysicsJet (fluid)CurvatureScale (ratio)Line-of-sightComputational physicsAstronomyMechanicsGeometryQuantum mechanicsMathematicsAstrophysics and Cosmic PhenomenaRadio Astronomy Observations and TechnologyGamma-ray bursts and supernovae
3D hydrodynamic simulations of large-scale precessing jets: radio morphology | Litcius