Ignition latitude and the shape of Type I X-ray bursts
Corresponding Author
Immanuel Maurer
Max-Planck-Institut für Astrophysik, Karl-Schwarzschild-Str.1, 85741 Garching, Germany
E-mail: [email protected] (IM); [email protected] (ALW)Search for more papers by this authorCorresponding Author
Anna L. Watts
Max-Planck-Institut für Astrophysik, Karl-Schwarzschild-Str.1, 85741 Garching, Germany
E-mail: [email protected] (IM); [email protected] (ALW)Search for more papers by this authorCorresponding Author
Immanuel Maurer
Max-Planck-Institut für Astrophysik, Karl-Schwarzschild-Str.1, 85741 Garching, Germany
E-mail: [email protected] (IM); [email protected] (ALW)Search for more papers by this authorCorresponding Author
Anna L. Watts
Max-Planck-Institut für Astrophysik, Karl-Schwarzschild-Str.1, 85741 Garching, Germany
E-mail: [email protected] (IM); [email protected] (ALW)Search for more papers by this authorABSTRACT
The shape of the light curve during the rising phase of Type I X-ray bursts is determined by many factors including the ignition latitude, the accretion rate, and the rotation rate of the star. We develop a phenomenological model of the burst rise process and show that simple measures of the burst morphology can be robust diagnostics of ignition latitude and burning regime. We apply our results to the large sample of bursts from the low-mass X-ray binary 4U 1636−536, and find evidence for off-equatorial ignition for many of the bursts. We argue that such behaviour may be associated with the transition from hydrogen to helium ignition at accretion rates a few per cent of Eddington. We show that this model can also explain variations in the detectability of burst oscillations, and discuss the implications for other burst sources.
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