Pulsars, transients and relativistic astrophysics

Optimization of the Observing Cadence for the Rubin Observatory Legacy Survey of Space and Time: a pioneering process of community-focused experimental design

(2021)

Authors:

Federica B Bianco, Željko Ivezić, R Lynne Jones, Melissa L Graham, Phil Marshall, Abhijit Saha, Michael A Strauss, Peter Yoachim, Tiago Ribeiro, Timo Anguita, Franz E Bauer, Eric C Bellm, Robert D Blum, William N Brandt, Sarah Brough, Màrcio Catelan, William I Clarkson, Andrew J Connolly, Eric Gawiser, John Gizis, Renee Hlozek, Sugata Kaviraj, Charles T Liu, Michelle Lochner, Ashish A Mahabal, Rachel Mandelbaum, Peregrine McGehee, Eric H Neilsen, Knut AG Olsen, Hiranya Peiris, Jason Rhodes, Gordon T Richards, Stephen Ridgway, Megan E Schwamb, Dan Scolnic, Ohad Shemmer, Colin T Slater, Anže Slosar, Stephen J Smartt, Jay Strader, Rachel Street, David E Trilling, Aprajita Verma, AK Vivas, Risa H Wechsler, Beth Willman

Gaia Early Data Release 3

Astronomy & Astrophysics EDP Sciences 652 (2021) a76

Authors:

ST Hodgkin, DL Harrison, E Breedt, T Wevers, G Rixon, A Delgado, A Yoldas, Z Kostrzewa-Rutkowska, Ł Wyrzykowski, M van Leeuwen, N Blagorodnova, H Campbell, D Eappachen, M Fraser, N Ihanec, SE Koposov, K Kruszyńska, G Marton, KA Rybicki, AGA Brown, PW Burgess, G Busso, S Cowell, F De Angeli, C Diener, DW Evans, G Gilmore, G Holland, PG Jonker, F van Leeuwen, F Mignard, PJ Osborne, J Portell, T Prusti, PJ Richards, M Riello, GM Seabroke, NA Walton, P Ábrahám, G Altavilla, SG Baker, U Bastian, P O’Brien, J de Bruijne, T Butterley, JM Carrasco, J Castañeda, JS Clark, G Clementini, CM Copperwheat, M Cropper, G Damljanovic, M Davidson, CJ Davis, M Dennefeld, VS Dhillon, C Dolding, M Dominik, P Esquej, L Eyer, C Fabricius, M Fridman, D Froebrich, N Garralda, A Gomboc, JJ González-Vidal, R Guerra, NC Hambly, LK Hardy, B Holl, A Hourihane, J Japelj, DA Kann, C Kiss, C Knigge, U Kolb, S Komossa, Á Kóspál, G Kovács, M Kun, G Leto, F Lewis, SP Littlefair, AA Mahabal, CG Mundell, Z Nagy, D Padeletti, L Palaversa, A Pigulski, ML Pretorius, W van Reeven, VARM Ribeiro, M Roelens, N Rowell, N Schartel, A Scholz, A Schwope, BM Sipőcz, SJ Smartt, MD Smith, I Serraller, D Steeghs, M Sullivan, L Szabados, E Szegedi-Elek, P Tisserand, L Tomasella, S van Velzen, PA Whitelock, RW Wilson, DR Young

Revisiting the archetypical wind accretor Vela X-1 in depth

Astronomy & Astrophysics EDP Sciences 652 (2021) a95

Authors:

P Kretschmar, I El Mellah, S Martínez-Núñez, F Fürst, V Grinberg, AAC Sander, J van den Eijnden, N Degenaar, J Maíz Apellániz, F Jiménez Esteban, M Ramos-Lerate, E Utrilla

Towards Precision Measurements of Accreting Black Holes Using X-Ray Reflection Spectroscopy

Space Science Reviews Springer Nature 217:5 (2021) 65

Authors:

Cosimo Bambi, Laura W Brenneman, Thomas Dauser, Javier A García, Victoria Grinberg, Adam Ingram, Jiachen Jiang, Honghui Liu, Anne M Lohfink, Andrea Marinucci, Guglielmo Mastroserio, Riccardo Middei, Sourabh Nampalliwar, Andrzej Niedźwiecki, James F Steiner, Ashutosh Tripathi, Andrzej A Zdziarski

Tidal disruption event discs are larger than they seem: removing systematic biases in TDE X-ray spectral modelling

Monthly Notices of the Royal Astronomical Society: Letters Oxford University Press 507:1 (2021) L24-L28

Abstract:

The physical sizes of tidal disruption event (TDE) accretion discs are regularly inferred, from modelling of the TDEs X-ray spectrum as a single-temperature blackbody, to be smaller than the plausible event horizons of the black holes which they occur around – a clearly unphysical result. In this Lltter, we demonstrate that the use of single-temperature blackbody functions results in the systematic underestimation of TDE accretion disc sizes by as much as an order of magnitude. In fact, the radial ‘size’ inferred from fitting a single-temperature blackbody to an observed accretion disc X-ray spectrum does not even positively correlate with the physical size of that accretion disc. We further demonstrate that the disc-observer inclination angle and absorption of X-ray photons may both lead to additional underestimation of the radial sizes of TDE discs, but by smaller factors. To rectify these issues, we present a new fitting function which accurately reproduces the size of an accretion disc from its 0.3−10 keV X-ray spectrum. Unlike traditional approaches, this new fitting function does not assume that the accretion disc has reached a steady-state configuration, an assumption which is unlikely to be satisfied by most TDEs.