Hintze Centre for Astrophysical Surveys

Spectrophotometric templates for core-collapse supernovae and their application in simulations of time-domain surveys

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 489:4 (2019) 5802-5821

Authors:

M Vincenzi, M Sullivan, RE Firth, CP Gutiérrez, C Frohmaier, M Smith, C Angus, RC Nichol

Estimating the molecular gas mass of low-redshift galaxies from a combination of mid-infrared luminosity and optical properties

(2019)

Authors:

Yang Gao, Ting Xiao, Cheng Li, Xue-Jian Jiang, Qing-hua Tan, Yu Gao, Christine D Wilson, Martin Bureau, Amelie Saintonge, Jos'e R S'anchez-Gallego, Toby Brown, Christopher J Clark, Ho Seong Hwang, Isabella Lamperti, Lin Lin, Lijie Liu, Dengrong Lu, Hsi-An Pan, Jixian Sun, Thomas G Williams

SN 2017gmr: An Energetic Type II-P Supernova with Asymmetries

The Astrophysical Journal American Astronomical Society 885:1 (2019)

Authors:

Jennifer E Andrews, DJ Sand, S Valenti, Nathan Smith, Raya Dastidar, DK Sahu, Kuntal Misra, Avinash Singh, D Hiramatsu, PJ Brown, G Hosseinzadeh, S Wyatt, J Vinko, GC Anupama, I Arcavi, Chris Ashall, S Benetti, Marco Berton, KA Bostroem, M Bulla, J Burke, S Chen, L Chomiuk, A Cikota, E Congiu, B Cseh, Scott Davis, N Elias-Rosa, T Faran, Morgan Fraser, L Galbany, C Gall, A Gal-Yam, Anjasha Gangopadhyay, M Gromadzki, J Haislip, DA Howell, EY Hsiao, C Inserra, E Kankare, H Kuncarayakti, V Kouprianov, Brajesh Kumar, Xue Li, Han Lin, K Maguire, P Mazzali, C McCully, P Milne, Jun Mo, N Morrell, M Nicholl, P Ochner, F Olivares, A Pastorello, F Patat, M Phillips, G Pignata, S Prentice, A Reguitti, DE Reichart, Ó Rodríguez, Liming Rui, Pankaj Sanwal, K Sárneczky, M Shahbandeh, Mridweeka Singh, S Smartt, J Strader, MD Stritzinger, R Szakáts, L Tartaglia, Huijuan Wang, Lingzhi Wang, Xiaofeng Wang, JC Wheeler, Danfeng Xiang, O Yaron, DR Young, Junbo Zhang

SN2018kzr: A Rapidly Declining Transient from the Destruction of a White Dwarf

The Astrophysical Journal Letters American Astronomical Society 885:1 (2019) l23

Authors:

Owen R McBrien, Stephen J Smartt, Ting-Wan Chen, Cosimo Inserra, James H Gillanders, Stuart A Sim, Anders Jerkstrand, Armin Rest, Stefano Valenti, Rupak Roy, Mariusz Gromadzki, Stefan Taubenberger, Andreas Flörs, Mark E Huber, Ken C Chambers, Avishay Gal-Yam, David R Young, Matt Nicholl, Erkki Kankare, Ken W Smith, Kate Maguire, Ilya Mandel, Simon Prentice, Ósmar Rodríguez, Jonathan Pineda Garcia, Claudia P Gutiérrez, Lluís Galbany, Cristina Barbarino, Peter SJ Clark, Jesper Sollerman, Shrinivas R Kulkarni, Kishalay De, David AH Buckley, Arne Rau

Synchrotron self-absorption and the minimum energy of optically thick radio flares from stellar mass black holes

Monthly Notices of the Royal Astronomical Society Oxford University Press 489:4 (2019) 4836-4846

Authors:

Rob Fender, Joe Bright

Abstract:

We consider the case of radio flares from black hole X-ray binaries in which the flare spectrum evolves from optically thick to optically thin, under the assumption that this is due to decreasing optical depth to synchrotron self-absorption. We are able to place upper and lower limits on the size of the emitting region associated with a radio flare, and determine the synchrotron source magnetic field and energy as a function of size. The energy has a clear minimum which occurs close to the condition that the magnetic field derived from synchrotron self-absorption equals that calculated from equipartition. This minimum energy estimate is independent of the rise time of the event, and so may be applied to any event for which the peak flux is measured and there is evidence for self-absorption. This is a much more accurate approach to minimum energy estimation than assuming expansion at close to the speed of light. We apply this method to four examples of optically thick radio flares and find that in each case either the filling factor of the synchrotron source is considerably less than unity, or the expansion speed is considerably less than the speed of light. The combination of unity filling factor and expansion speeds close to the speed of light is completely ruled out on energetic grounds for three of the four events we consider. The inferred slowed expansion is consistent with detailed modelling of such events, which has been recently reported in the literature. The minimum power requirements associated with the flares are found to be ∼1036 erg s−1, which are easily accommodated in the context of stellar mass black hole accretion at near-Eddington levels, when these flares typically occur. However, the true jet power could still be orders of magnitude higher.