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Simulating the Negative Jet Feedback Mechanism in Common Envelope Jet Supernovae

Aldana Grichener, Coral Cohen, Noam Soker

2021The Astrophysical Journal20 citationsDOIOpen Access PDF

Abstract

Abstract We use the stellar evolution code MESA to study the negative jet feedback mechanism in common envelope jet supernovae (CEJSNe), in which a neutron star (NS) launches jets in the envelope of a red supergiant (RSG). We find that the feedback reduces the mass accretion rate to be χ j ≃ 0.04–0.3 times the mass accretion rate without the operation of jets. We mimic the effect of the jets on the RSG envelope by depositing the energy that the jets carry into the envelope zones outside the NS orbit. The energy deposition inflates the envelope, therefore reducing the density in the NS vicinity, which in turn reduces the mass accretion rate in a negative feedback cycle. In calculating the above values for the negative jet feedback coefficient (the further reduction in the accretion rate) χ j , we adopt the canonical ratio of jet power to actual accretion power of 0.1, and the results of numerical simulations that show the actual mass accretion rate to be a fraction of 0.1–0.5 of the Bondi–Hoyle–Lyttleton mass accretion rate.

Topics & Concepts

PhysicsSupernovaAccretion (finance)AstrophysicsJet (fluid)Neutron starEnvelope (radar)Common envelopeMechanicsStarsAerospace engineeringEngineeringRadarWhite dwarfGamma-ray bursts and supernovaeAstrophysical Phenomena and ObservationsStellar, planetary, and galactic studies
Simulating the Negative Jet Feedback Mechanism in Common Envelope Jet Supernovae | Litcius