Spin-down of Pulsations in the Cooling Tail of an X-Ray Burst from 4U 1636−53

Abstract

With the proportional counter array on board the Rossi X-ray Timing Explorer, we report the discovery of a decrease in the frequency of X-ray brightness oscillations in the cooling tail of an X-ray burst from 4U 1636-53. This is the first direct evidence for a spin-down of the pulsations seen during thermonuclear bursts. We find that the spin-down episode is correlated with the appearance in this burst of an extended tail of emission with a decay timescale much longer than is seen in other bursts from 4U 1636-53 in the same set of observations. We present both time-resolved energy and variability spectra during this burst and compare them with results from a second burst that shows neither a spin-down episode nor an extended tail. A spectral evolution study of the "spin-down" burst reveals a secondary signature of weak radius expansion, which is not seen in other bursts and is correlated with the spin-down episode; this may indicate a secondary thermonuclear energy release. We interpret the spin-down episode in the context of an angular momentum-conserving shell, which is reexpanded and therefore spun down by an additional thermonuclear energy release that could also explain the extended X-ray tail.