Evolution of relativistic thin discs with a finite ISCO stress: II. Late time behaviour
Monthly Notices of the Royal Astronomical Society Oxford University Press 489:1 (2019) 143-152
Abstract:
We present solutions to the relativistic thin disc evolutionary equation using a modified description of the mean fluid flow within the disc. The model takes into account the effects of sub-circular velocities in the innermost disc regions, and resolves otherwise unsustainable behaviour present in simple finite innermost stable circular orbit (ISCO) stress disc models. We show that the behaviour of a relativistic thin disc evolving with a finite ISCO stress is comprised of three distinct stages which join the ordinarily distinct finite and vanishing ISCO stress solutions into a fully continuous model parametrization. The most important prediction of our model is the existence of an intermediate stage of ‘stalled accretion’, controlled by a single dimensionless parameter. The hallmarks of this evolutionary phase appear to have been seen in General Relativistic MHD simulations as well as in the late time X-ray observations of tidal disruption events, but dedicated simulations and extended observations are needed for a deeper understanding.Electromagnetic transients and gravitational waves from white dwarf disruptions by stellar black holes in triple systems
(2019)
PS18kh: A New Tidal Disruption Event with a Non-axisymmetric Accretion Disk
The Astrophysical Journal American Astronomical Society 880:2 (2019) 120
Understanding the radio beam of PSR J1136+1551 through its single pulses
Monthly Notices of the Royal Astronomical Society Oxford University Press 489:1 (2019) 310-324
Abstract:
The frequency widening of pulsar profiles is commonly attributed to lower frequencies being produced at greater heights above the surface of the pulsar; so-called radius-to-frequency mapping (RFM). The observer’s view of pulsar emission is a 1D cut through a 3D magnetosphere: we can only see that emission which points along our line of sight. However, by comparing the frequency evolution of many single pulses positioned at different phases, we can build up an understanding of the shape of the active emission region. We use single pulses observed with the Giant Metrewave Radio Telescope to investigate the emission region of PSR J1136+1551 and test RFM. Assuming that emission is produced tangential to the magnetic field lines and that each emission frequency corresponds to a single height, we simulate the single pulse profile evolution resulting from the canonical conal beam model and a fan beam model. Comparing the results of these simulations with the observations, we conclude that the emission region of PSR J1136+1551 is better described by the fan beam model. The diversity of profile widening behaviour observed for the single pulses can be explained by orthogonally polarized modes propagating along differing frequency-dependent paths in the magnetosphere.A luminous stellar outburst during a long-lasting eruptive phase first, and then SN IIn 2018cnf
Astronomy & Astrophysics EDP Sciences 628 (2019) a93