Amalgame: cosmological constraints from the first combined photometric supernova sample
Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 529:3 (2024) 2100-2115
Modelling the spectra of the kilonova AT2017gfo – II. Beyond the photospheric epochs
Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 529:3 (2024) 2918-2945
Multiwavelength Pulsations and Surface Temperature Distribution in the Middle-aged Pulsar B1055–52
The Astrophysical Journal American Astronomical Society 963:2 (2024) 138
Abstract:
We present a detailed study of the X-ray emission from PSR B1055–52 using XMM-Newton observations from 2019 and 2000. The phase-integrated X-ray emission from this pulsar is poorly described by existing models of neutron star atmospheres. Instead, we confirm that, similar to other middle-aged pulsars, the best-fitting spectral model consists of two blackbody components, with substantially different temperatures and emitting areas, and a nonthermal component characterized by a power law. Our phase-resolved X-ray spectral analysis using this three-component model reveals variations in the thermal emission parameters with the pulsar’s rotational phase. These variations suggest a nonuniform temperature distribution across the neutron star’s surface, including the cold thermal component and probable hot spot(s). Such a temperature distribution can be caused by external and internal heating processes, likely a combination thereof. We observe very high pulse fractions, 60%–80% in the 0.7–1.5 keV range, dominated by the hot blackbody component. This could be related to temperature nonuniformity and potential beaming effects in an atmosphere. We find indication of a second hot spot that appears at lower energies (0.15–0.3 keV) than the first hot spot (0.5–1.5 keV) in the X-ray light curves and is offset by about half a rotation period. This finding aligns with the nearly orthogonal rotator geometry suggested by radio observations of this interpulse pulsar. If the hot spots are associated with polar caps, a possible explanation for their temperature asymmetry could be an offset magnetic dipole and/or an additional toroidal magnetic field component in the neutron star crust.Stochastic Gravitational Wave Background from Highly-Eccentric Stellar-Mass Binaries in the Milli-hertz Band
(2024)
Coupling of radiation and magnetospheric accretion flow in ULX pulsars: radiation pressure and photon escape time
Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 529:2 (2024) 1571-1578