A NICER Thermonuclear Burst from the Millisecond X-Ray Pulsar SAX J1808.4-3658

A NICER Thermonuclear Burst from the Millisecond X-Ray Pulsar SAX J1808.4-3658

The Neutron Star Interior Composition Explorer (NICER) has extensively monitored the 2019 August outburst of the 401 Hz millisecond X-ray pulsar SAX J1808.4-3658. In this Letter, we report on the detection of a bright helium-fueled Type I X-ray burst. With a bolometric peak flux of (2.3 0.1) × 10−7...

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Veröffentlicht in:Astrophysical journal. Letters 2019-11, Vol.885 (1), p.L1
Hauptverfasser: Bult, Peter, Jaisawal, Gaurava K., Güver, Tolga, Strohmayer, Tod E., Altamirano, Diego, Arzoumanian, Zaven, Ballantyne, David R., Chakrabarty, Deepto, Chenevez, Jérôme, Gendreau, Keith C., Guillot, Sebastien, Ludlam, Renee M.
Format: Artikel
Sprache:eng
Schlagworte:
Accretion disks
Astrophysics
Bolometers
Emission
Emission lines
Evolution
Fluctuations
Helium
Hydrogen
Millisecond pulsars
Neutron flux
Neutron stars
Neutrons
Physics
Pulsars
Reprocessing
X-ray bursts
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Zusammenfassung:The Neutron Star Interior Composition Explorer (NICER) has extensively monitored the 2019 August outburst of the 401 Hz millisecond X-ray pulsar SAX J1808.4-3658. In this Letter, we report on the detection of a bright helium-fueled Type I X-ray burst. With a bolometric peak flux of (2.3 0.1) × 10−7 erg s−1 cm−2, this was the brightest X-ray burst among all bursting sources observed with NICER to date. The burst shows a remarkable two-stage evolution in flux, emission lines at 1.0 and 6.7 keV, and burst oscillations at the known pulsar spin frequency, with 4% fractional sinusoidal amplitude. We interpret the burst flux evolution as the detection of the local Eddington limits associated with the hydrogen and helium layers of the neutron star envelope. The emission lines are likely associated with Fe, due to reprocessing of the burst emission in the accretion disk.
ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8213/ab4ae1