The Square Kilometre Array (SKA)

Cosmology from LOFAR Two-metre Sky Survey Data Release 2: Counts-in-cells statistics

Astronomy & Astrophysics EDP Sciences 698 (2025) a148

Authors:

Morteza Pashapour-Ahmadabadi, Lukas Böhme, Thilo M Siewert, Dominik J Schwarz, Catherine L Hale, Caroline Heneka, Prabhakar Tiwari, Jinglan Zheng

Cosmology from LOFAR Two-metre Sky Survey Data Release 2: Cross-correlations with luminous red galaxies from eBOSS

Astronomy & Astrophysics EDP Sciences 698 (2025) a58

Authors:

Jinglan Zheng, Prabhakar Tiwari, Gong-Bo Zhao, Dominik J Schwarz, David Bacon, Stefano Camera, Caroline Heneka, Catherine Hale, Szymon J Nakoneczny, Morteza Pashapour-Ahmadabadi

Slow and steady: long-term evolution of the 76-s pulsar J0901−4046

Monthly Notices of the Royal Astronomical Society Oxford University Press 540:3 (2025) 2131-2145

Authors:

MC Bezuidenhout, NDR Bhat, M Caleb, LN Driessen, F Jankowski, M Kramer, V Morello, I Pastor-Marazuela, K Rajwade, J Roy, BW Stappers, M Surnis, J Tian

Abstract:

PSR J0901−4046, a likely radio-loud neutron star with a period of 75.88 s, challenges conventional models of neutron star radio emission. Here, we showcase results from 46 h of follow-up observations of PSR J0901−4046 using the MeerKAT, Murriyang, Giant Metrewave Radio Telescope, and Murchison Widefield Array radio telescopes. We demonstrate the intriguing stability of the source’s timing solution over more than 3 yr, leading to an RMS arrival-time uncertainty of just of the rotation period. Furthermore, non-detection below 500 MHz may indicate a low-frequency turnover in the source’s spectrum, while no secular decline in the flux density of the source over time, as was apparent from previous observations, has been observed. Using high time-resolution MeerKAT data, we demonstrate two distinct quasi-periodic oscillation modes present in single pulses, with characteristic time-scales of 73 and 21 ms. We also observe a statistically significant change in the relative prevalence of distinct pulse morphologies compared to previous observations, possibly indicating a shift in the magnetospheric composition over time. Finally, we show that the W pulse width is nearly constant from 544 to 4032 MHz, consistent with zero radius-to-frequency mapping. The very short duty cycle () is more similar to radio pulsars with periods >5 s than to radio-loud magnetars. This, along with the lack of magnetar-like outbursts or timing glitches, complicates the identification of the source with ultralong period magnetar models.

Colloquium: The Cosmic Dipole Anomaly

(2025)

Authors:

Nathan Secrest, Sebastian von Hausegger, Mohamed Rameez, Roya Mohayaee, Subir Sarkar

Gone with the Wind: JWST-MIRI Unveils a Strong Outflow from the Quiescent Stellar-Mass Black Hole A0620-00

(2025)

Authors:

Zihao Zuo, Gabriele Cugno, Joseph Michail, Elena Gallo, David M Russell, Richard M Plotkin, Fan Zou, M Cristina Baglio, Piergiorgio Casella, Fraser J Cowie, Rob Fender, Poshak Gandhi, Sera Markoff, Federico Vincentelli, Fraser Lewis, Jon M Miller, James CA Miller-Jones, Alexandra Veledina