A new radio census of neutron star X-ray binaries

van den Eijnden, J.; Degenaar, N.; Russell, T. D.; Wijnands, R.; Bahramian, A.; Miller-Jones, J. C. A.; Hernández Santisteban, J. V.; Gallo, E.; Atri, P.; Plotkin, R. M.; Maccarone, T. J.; Sivakoff, G.; Miller, J. M.; Reynolds, M.; Russell, D. M.; Maitra, D.; Heinke, C. O.; Armas Padilla, M.; Shaw, A. W.
Referencia bibliográfica

Monthly Notices of the Royal Astronomical Society

Fecha de publicación:
11
2021
Número de autores
19
Número de autores del IAC
1
Número de citas
45
Número de citas referidas
41
Descripción
We report new radio observations of a sample of 36 neutron star (NS) X-ray binaries, more than doubling the sample in the literature observed at current-day sensitivities. These sources include 13 weakly magnetized (B < 1010 G) and 23 strongly magnetized (B ≥ 1010 G) NSs. 16 of the latter category reside in high-mass X-ray binaries, of which only two systems were radio-detected previously. We detect four weakly and nine strongly magnetized NSs; the latter are systematically radio fainter than the former and do not exceed LR ≍ 3 × 1028 erg s-1. In turn, we confirm the earlier finding that the weakly magnetized NSs are typically radio fainter than accreting stellar-mass black holes. While an unambiguous identification of the origin of radio emission in high-mass X-ray binaries is challenging, we find that in all but two detected sources (Vela X-1 and 4U 1700-37) the radio emission appears more likely attributable to a jet than the donor star wind. The strongly magnetized NS sample does not reveal a global correlation between X-ray and radio luminosity, which may be a result of sensitivity limits. Furthermore, we discuss the effect of NS spin and magnetic field on radio luminosity and jet power in our sample. No current model can account for all observed properties, necessitating the development and refinement of NS jet models to include magnetic field strengths up to 1013 G. Finally, we discuss jet quenching in soft states of NS low-mass X-ray binaries, the radio non-detections of all observed very-faint X-ray binaries in our sample, and future radio campaigns of accreting NSs.
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