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Simulating highly eccentric common envelope jet supernova impostors

Ron Schreier, Shlomi Hillel, Sagiv Shiber, Noam Soker

2021Monthly Notices of the Royal Astronomical Society26 citationsDOIOpen Access PDF

Abstract

ABSTRACT We conduct three-dimensional hydrodynamical simulations of eccentric common envelope jet supernova (CEJSN) impostors, i.e. a neutron star that crosses through the envelope of a red supergiant star on a highly eccentric orbit and launches jets as it accretes mass from the envelope. Because of numerical limitations, we apply a simple prescription where we inject the assumed jets’ power into two opposite conical regions inside the envelope. We find the outflow morphology to be very complicated, clumpy, and non-spherical, having a large-scale symmetry only about the equatorial plane. The outflow morphology can substantially differ between simulations that differ by their jets’ power. We estimate by simple means the light curve to be very bumpy, to have a rise time of one to a few months, and to slowly decay in about a year to several years. These eccentric CEJSN impostors will be classified as ‘gap’ objects, i.e. having a luminosity between those of classical novae and typical supernovae (termed also ILOTs for intermediate luminosity optical transients). We strengthen a previous conclusion that CEJSN impostors might account for some peculiar ILOTs, in particular those that might repeat over time-scales of months to years.

Topics & Concepts

PhysicsAstrophysicsSupernovaJet (fluid)LuminosityEnvelope (radar)Common envelopeOutflowLight curveAstronomyNeutron starRed supergiantSupergiantStarsMechanicsGalaxyMeteorologyWhite dwarfRadarTelecommunicationsComputer scienceGamma-ray bursts and supernovaeStellar, planetary, and galactic studiesPulsars and Gravitational Waves Research
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