Hintze Centre for Astrophysical Surveys

SPIRITS 16tn in NGC 3556: A Heavily Obscured and Low-luminosity Supernova at 8.8 Mpc

ASTROPHYSICAL JOURNAL 863:1 (2018) ARTN 20

Authors:

Jacob E Jencson, Mansi M Kasliwal, Scott M Adams, Howard E Bond, Ryan M Lau, Joel Johansson, Assaf Horesh, Kunal P Mooley, Robert Fender, Kishalay De, Donal O'Sullivan, Frank J Masci, Ann Marie Cody, Nadia Blagorodnova, Ori D Fox, Robert D Gehrz, Peter A Milne, Daniel A Perley, Nathan Smith, Schuyler D Van Dyk

The KMOS Redshift One Spectroscopic Survey (KROSS): the origin of disc turbulence in z ≈ 1 star-forming galaxies

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 474:4 (2018) 5076-5104

Authors:

HL Johnson, CM Harrison, AM Swinbank, AL Tiley, JP Stott, RG Bower, Ian Smail, AJ Bunker, D Sobral, OJ Turner, P Best, M Bureau, M Cirasuolo, MJ Jarvis, G Magdis, RM Sharples, J Bland-Hawthorn, B Catinella, L Cortese, SM Croom, C Federrath, K Glazebrook, SM Sweet, JJ Bryant, M Goodwin, IS Konstantopoulos, JS Lawrence, AM Medling, MS Owers, S Richards

WISDOM Project - III. Molecular gas measurement of the supermassive black hole mass in the barred lenticular galaxy NGC4429

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 473:3 (2018) 3818-3834

Authors:

Timothy A Davis, Martin Bureau, Kyoko Onishi, Freeke van de Voort, Michele Cappellari, Satoru Iguchi, Lijie Liu, Eve V North, Marc Sarzi, Mark D Smith

A radio counterpart to a neutron star merger

Science American Association for the Advancement of Science 358:6370 (2017) 1579-1583

Authors:

G Hallinan, A Corsi, KP Mooley, K Hotokezaka, E Nakar, MM Kasliwal, DL Kaplan, DA Frail, ST Myers, T Murphy, K De, D Dobie, James Allison, KW Bannister, V Bhalerao, P Chandra, TE Clarke, S Giacintucci, AYQ Ho, A Horesh, NE Kassim, E Lenc, FJ Lockman, C Lynch, D Nichols, S Nissanke, N Palliyaguru, T Piran, J Rana, EM Sadler, LP Singer

Abstract:

Gravitational waves have been detected from a binary neutron star merger event, GW170817. The detection of electromagnetic radiation from the same source has shown that the merger occurred in the outskirts of the galaxy NGC 4993, at a distance of 40 megaparsecs from Earth. We report the detection of a counterpart radio source that appears 16 days after the event, allowing us to diagnose the energetics and environment of the merger. The observed radio emission can be explained by either a collimated ultrarelativistic jet, viewed off-axis, or a cocoon of mildly relativistic ejecta. Within 100 days of the merger, the radio light curves will enable observers to distinguish between these models, and the angular velocity and geometry of the debris will be directly measurable by very long baseline interferometry.

Illuminating gravitational waves: A concordant picture of photons from a neutron star merger

Science American Association for the Advancement of Science 358:6370 (2017) 1559-1565

Authors:

MM Kasliwal, E Nakar, LP Singer, DL Kaplan, A Van Sistine, RM Lau, C Fremling, O Gottlieb, JE Jencson, SM Adams, U Feindt, K Hotokezaka, S Ghosh, DA Perley, P-C Yu, T Piran, James Allison, GC Anupama, A Balasubramanian, KW Bannister, J Bally, J Barnes, S Barway, E Bellm, V Bhalerao, D Bhattacharya, N Blagorodnova, JS Bloom, PR Brady, C Cannella, D Chatterjee, SB Cenko, BE Cobb, C Copperwheat, A Corsi, K De, D Dobie, SWK Emery, PA Evans, OD Fox, DA Frail, C Frohmaier, A Goobar, G Hallinan, F Harrison, G Helou, T Hinderer, AYQ Ho, A Horesh

Abstract:

Merging neutron stars offer an excellent laboratory for simultaneously studying strong-field gravity and matter in extreme environments. We establish the physical association of an electromagnetic counterpart (EM170817) with gravitational waves (GW170817) detected from merging neutron stars. By synthesizing a panchromatic data set, we demonstrate that merging neutron stars are a long-sought production site forging heavy elements by r-process nucleosynthesis. The weak gamma rays seen in EM170817 are dissimilar to classical short gamma-ray bursts with ultrarelativistic jets. Instead, we suggest that breakout of a wide-angle, mildly relativistic cocoon engulfing the jet explains the low-luminosity gamma rays, the high-luminosity ultraviolet-optical-infrared, and the delayed radio and x-ray emission. We posit that all neutron star mergers may lead to a wide-angle cocoon breakout, sometimes accompanied by a successful jet and sometimes by a choked jet.