Gamma-ray astronomy

X-Ray and Radio Monitoring of the Neutron Star Low-mass X-Ray Binary 1A 1744-361: Quasiperiodic Oscillations, Transient Ejections, and a Disk Atmosphere

The Astrophysical Journal American Astronomical Society 966:2 (2024) 232

Authors:

Mason Ng, Andrew K Hughes, Jeroen Homan, Jon M Miller, Sean N Pike, Diego Altamirano, Peter Bult, Deepto Chakrabarty, DJK Buisson, Benjamin M Coughenour, Rob Fender, Sebastien Guillot, Tolga Güver, Gaurava K Jaisawal, Amruta D Jaodand, Christian Malacaria, James CA Miller-Jones, Andrea Sanna, Gregory R Sivakoff, Tod E Strohmayer, John A Tomsick, Jakob van den Eijnden

Abstract:

We report on X-ray (NICER/NuSTAR/MAXI/Swift) and radio (MeerKAT) timing and spectroscopic analysis from a 3 month monitoring campaign in 2022 of a high-intensity outburst of the dipping neutron star low-mass X-ray binary 1A 1744−361. The 0.5–6.8 keV NICER X-ray hardness–intensity and color–color diagrams of the observations throughout the outburst suggest that 1A 1744−361 spent most of its outburst in an atoll-state, but we show that the source exhibited Z-state-like properties at the peak of the outburst, similar to a small sample of other atoll-state sources. A timing analysis with NICER data revealed several instances of an ≈8 Hz quasiperiodic oscillation (QPO; fractional rms amplitudes of ∼5%) around the peak of the outburst, the first from this source, which we connect to the normal branch QPOs seen in the Z-state. Our observations of 1A 1744−361 are fully consistent with the idea of the mass accretion rate being the main distinguishing parameter between atoll- and Z-states. Radio monitoring data by MeerKAT suggests that the source was at its radio-brightest during the outburst peak, and that the source transitioned from the “island” spectral state to the “banana” state within ∼3 days of the outburst onset, launching transient jet ejecta. The observations present the strongest evidence for radio flaring, including jet ejecta, during the island-to-banana spectral state transition at low accretion rates (atoll-state). The source also exhibited Fe xxv, Fe xxvi Kα, and Kβ X-ray absorption lines, whose origins likely lie in an accretion disk atmosphere.

Curvature in the very-high energy gamma-ray spectrum of M 87⋆

Astronomy & Astrophysics EDP Sciences 685 (2024) a96

Authors:

F Aharonian, F Ait Benkhali, J Aschersleben, H Ashkar, M Backes, V Barbosa Martins, R Batzofin, Y Becherini, D Berge, K Bernlöhr, M Böttcher, C Boisson, J Bolmont, M de Bony de Lavergne, F Bradascio, R Brose, F Brun, B Bruno, T Bulik, C Burger-Scheidlin, T Bylund, S Casanova, R Cecil, J Celic, M Cerruti, T Chand, S Chandra, A Chen, J Chibueze, O Chibueze, T Collins, G Cotter, J Damascene Mbarubucyeye, A Djannati-Ataï, J Djuvsland, A Dmytriiev, K Egberts, S Einecke, S Fegan, G Fontaine, S Funk, S Gabici, JF Glicenstein, J Glombitza, G Grolleron, L Haerer, W Hofmann, TL Holch, M Holler, D Horns, M Jamrozy, F Jankowsky, V Joshi, I Jung-Richardt, E Kasai, K Katarzyński, R Khatoon, B Khélifi, W Kluźniak, Nu Komin, K Kosack, D Kostunin, A Kundu, RG Lang, S Le Stum, F Leitl, A Lemière, M Lemoine-Goumard, J-P Lenain, I Lypova, A Luashvili, J Mackey, D Malyshev, G Martí-Devesa, R Marx, A Mehta, M Meyer, A Mitchell, R Moderski, MO Moghadam, L Mohrmann, A Montanari, E Moulin, T Murach, M de Naurois, J Niemiec, S Ohm, L Olivera-Nieto, E de Ona Wilhelmi, S Panny, M Panter, RD Parsons, U Pensec, S Pita, G Pühlhofer, M Punch, A Quirrenbach, M Regeard, A Reimer, O Reimer, H Ren, B Reville, F Rieger, B Rudak, E Ruiz-Velasco, V Sahakian, H Salzmann, A Santangelo, M Sasaki, F Schüssler, HM Schutte, JNS Shapopi, H Sol, S Spencer, Ł Stawarz, R Steenkamp, S Steinmassl, C Steppa, K Streil, T Takahashi, T Tanaka, AM Taylor, R Terrier, M Tsirou, C van Eldik, C Venter, J Vink, T Wach, SJ Wagner, A Wierzcholska, M Zacharias, AA Zdziarski, A Zech, P Zilberman, N Żywucka

The Thousand-Pulsar-Array programme on MeerKAT XIV: On the high linearly polarized pulsar signals

(2024)

Authors:

Simon Johnston, Dipanjan Mitra, Michael Keith, Lucy Oswald, Aris Karastergiou

The Thousand-Pulsar-Array programme on MeerKAT – XIII. Timing, flux density, rotation measure, and dispersion measure time series of 597 pulsars

Monthly Notices of the Royal Astronomical Society Oxford University Press 530:2 (2024) 1581-1591

Authors:

MJ Keith, S Johnston, A Karastergiou, P Weltevrede, ME Lower, A Basu, B Posselt, LS Oswald, A Parthasarathy, AD Cameron, M Serylak, S Buchner

Abstract:

We report here on the timing of 597 pulsars over the last four years with the MeerKAT telescope. We provide times of arrival, pulsar ephemeris files, and per-epoch measurements of the flux density, dispersion measure (DM), and rotation measure (RM) for each pulsar. In addition, we use a Gaussian process to model the timing residuals to measure the spin frequency derivative at each epoch. We also report the detection of 11 glitches in nine individual pulsars. We find significant DM and RM variations in 87 and 76 pulsars, respectively. We find that the DM variations scale approximately linearly with DM, which is broadly in agreement with models of the ionized interstellar medium. The observed RM variations seem largely independent of DM, which may suggest that the RM variations are dominated by variations in the interstellar magnetic field on the line of sight, rather than varying electron density. We also find that normal pulsars have around 5 times greater amplitude of DM variability compared to millisecond pulsars, and surmise that this is due to the known difference in their velocity distributions.

The Thousand-Pulsar-Array programme on MeerKAT XIII: Timing, flux density, rotation measure and dispersion measure timeseries of 597 pulsars

(2024)

Authors:

MJ Keith, S Johnston, A Karastergiou, P Weltevrede, ME Lower, A Basu, B Posselt, LS Oswald, A Parthasarathy, AD Cameron, M Serylak, S Buchner