MeerKAT

The Hydrogen Intensity and Real-time Analysis eXperiment: 256-Element Array Status and Overview

(2021)

Authors:

Devin Crichton, Moumita Aich, Adam Amara, Kevin Bandura, Bruce A Bassett, Carlos Bengaly, Pascale Berner, Shruti Bhatporia, Martin Bucher, Tzu-Ching Chang, H Cynthia Chiang, Jean-Francois Cliche, Carolyn Crichton, Romeel Dave, Dirk IL de Villiers, Matt A Dobbs, Aaron M Ewall-Wice, Scott Eyono, Christopher Finlay, Sindhu Gaddam, Ken Ganga, Kevin G Gayley, Kit Gerodias, Tim Gibbon, Austin Gumba, Neeraj Gupta, Maile Harris, Heiko Heilgendorf, Matt Hilton, Adam D Hincks, Pascal Hitz, Mona Jalilvand, Roufurd Julie, Zahra Kader, Joseph Kania, Dionysios Karagiannis, Aris Karastergiou, Kabelo Kesebonye, Piyanat Kittiwisit, Jean-Paul Kneib, Kenda Knowles, Emily R Kuhn, Martin Kunz, Roy Maartens, Vincent MacKay, Stuart MacPherson, Christian Monstein, Kavilan Moodley, V Mugundhan, Warren Naidoo, Arun Naidu, Laura B Newburgh, Viraj Nistane, Amanda Di Nitto, Deniz Ölçek, Xinyu Pan, Sourabh Paul, Jeffrey B Peterson, Elizabeth Pieters, Carla Pieterse, Aritha Pillay, Anna R Polish, Liantsoa Randrianjanahary, Alexandre Refregier, Andre Renard, Edwin Retana-Montenegro, Ian H Rout, Cyndie Russeeawon, Alireza Vafaei Sadr, Benjamin RB Saliwanchik, Ajith Sampath, Pranav Sanghavi, Mario G Santos, Onkabetse Sengate, J Richard Shaw, Jonathan L Sievers, Oleg M Smirnov, Kendrick M Smith, Ulrich Armel Mbou Sob, Raghunathan Srianand, Pieter Stronkhorst, Dhaneshwar D Sunder, Simon Tartakovsky, Russ Taylor, Peter Timbie, Emma E Tolley, Junaid Townsend, Will Tyndall, Cornelius Ungerer, Jacques van Dyk, Gary van Vuuren, Keith Vanderlinde, Thierry Viant, Anthony Walters, Jingying Wang, Amanda Weltman, Patrick Woudt, Dallas Wulf, Anatoly Zavyalov, Zheng Zhang

The Thousand-Pulsar-Array programme on MeerKAT: -- VI. Pulse widths of a large and diverse sample of radio pulsars

(2021)

Authors:

B Posselt, A Karastergiou, S Johnston, A Parthasarathy, Mj Keith, Ls Oswald, X Song, P Weltevrede, Ed Barr, S Buchner, M Geyer, M Kramer, Dj Reardon, M Serylak, Rm Shannon, R Spiewak, V Venkatraman Krishnan

Abstract:

We present pulse width measurements for a sample of radio pulsars observed with the MeerKAT telescope as part of the Thousand-Pulsar-Array (TPA) programme in the MeerTime project. For a centre frequency of 1284 MHz, we obtain 762 $W_{10}$ measurements across the total bandwidth of 775 MHz, where $W_{10}$ is the width at the 10% level of the pulse peak. We also measure about 400 $W_{10}$ values in each of the four or eight frequency sub-bands. Assuming, the width is a function of the rotation period P, this relationship can be described with a power law with power law index $\mu=-0.29\pm 0.03$. However, using orthogonal distance regression, we determine a steeper power law with $\mu=-0.63\pm 0.06$. A density plot of the period-width data reveals such a fit to align well with the contours of highest density. Building on a previous population synthesis model, we obtain population-based estimates of the obliquity of the magnetic axis with respect to the rotation axis for our pulsars. Investigating the width changes over frequency, we unambiguously identify a group of pulsars that have width broadening at higher frequencies. The measured width changes show a monotonic behaviour with frequency for the whole TPA pulsar population, whether the pulses are becoming narrower or broader with increasing frequency. We exclude a sensitivity bias, scattering and noticeable differences in the pulse component numbers as explanations for these width changes, and attempt an explanation using a qualitative model of five contributing Gaussian pulse components with flux density spectra that depend on their rotational phase.

Are Delayed Radio Flares Common in Tidal Disruption Events? The Case of the TDE iPTF16fnl

(2021)

Authors:

Assaf Horesh, Itai Sfaradi, Rob Fender, David A Green, David RA Williams, Joe Bright

Measuring the baryonic Tully-Fisher relation below the detection threshold

Monthly Notices of the Royal Astronomical Society Oxford University Press 508:2 (2021) 1897-1907

Authors:

Hengxing Pan, Matt J Jarvis, Anastasia A Ponomareva, Mario G Santos, James R Allison, Natasha Maddox, Bradley S Frank

Abstract:

We present a novel 2D flux density model for observed H i emission lines combined with a Bayesian stacking technique to measure the baryonic Tully-Fisher relation below the nominal detection threshold. We simulate a galaxy catalogue, which includes H i lines described with either Gaussian or busy function profiles, and H i data cubes with a range of noise and survey areas similar to the MeerKAT International Giga-Hertz Tiered Extragalactic Exploration (MIGHTEE) survey. With prior knowledge of redshifts, stellar masses, and inclinations of spiral galaxies, we find that our model can reconstruct the input baryonic Tully-Fisher parameters (slope and zero-point) most accurately in a relatively broad redshift range from the local Universe to z = 0.3 for all the considered levels of noise and survey areas and up to z = 0.55 for a nominal noise of 90 μJy/channel over 5 deg2. Our model can also determine the MHI - M∗ relation for spiral galaxies beyond the local Universe and account for the detailed shape of the H I emission line, which is crucial for understanding the dynamics of spiral galaxies. Thus, we have developed a Bayesian stacking technique for measuring the baryonic Tully-Fisher relation for galaxies at low stellar and/or H I masses and/or those at high redshift, where the direct detection of H I requires prohibitive exposure times.

MIGHTEE-H I: the baryonic Tully–Fisher relation over the last billion years

Monthly Notices of the Royal Astronomical Society Oxford University Press 508:1 (2021) 1195-1205

Authors:

Anastasia A Ponomareva, Wanga Mulaudzi, Natasha Maddox, Bradley S Frank, Matt J Jarvis, Enrico M Di Teodoro, Marcin Glowacki, Renee C Kraan-Korteweg, Tom A Oosterloo, Elizabeth AK Adams, Hengxing Pan, Isabella Prandoni, Sambatriniaina HA Rajohnson, Francesco Sinigaglia, Nathan J Adams, Ian Heywood, Rebecca AA Bowler, Peter W Hatfield, Jordan D Collier, Srikrishna Sekhar

Abstract:

Using a sample of 67 galaxies from the MeerKAT International GigaHertz Tiered Extragalactic Exploration Survey Early Science data, we study the H i-based baryonic Tully-Fisher relation (bTFr), covering a period of ∼1 billion years (0 ≤ z ≤ 0.081). We consider the bTFr based on two different rotational velocity measures: The width of the global H i profile and Vout, measured as the outermost rotational velocity from the resolved H i rotation curves. Both relations exhibit very low intrinsic scatter orthogonal to the best-fitting relation (σ⊥ = 0.07 ± 0.01), comparable to the SPARC sample at z 0. The slopes of the relations are similar and consistent with the z 0 studies (3.66+0.35-0.29 for W50 and 3.47+0.37-0.30 for Vout). We find no evidence that the bTFr has evolved over the last billion years, and all galaxies in our sample are consistent with the same relation independent of redshift and the rotational velocity measure. Our results set-up a reference for all future studies of the H i-based bTFr as a function of redshift that will be conducted with the ongoing deep SKA pathfinders surveys.