Hard X-Ray Spectroscopy and Pulsar Phase Analysis of the Bursting X-Ray Pulsar GRO J1744−28 with OSSE
Citations Over TimeTop 10% of 1996 papers
Abstract
We report OSSE observations of the bursting X-ray pulsar GRO J174428 made in 1995 December and 1996 January at hard X-ray energies 35 keV. The pulse profile of the persistent (i.e., nonbursting) pulsar emission is fitted with a sinusoid in the energy range 35-90 keV. Residuals reveal a second harmonic amplitude of 3.0% H 0.5% of the fundamental. The distribution of time intervals between bursts measured in January is characterized by a broad flat-topped function with width 335 minutes and mean 333 minutes. The burst profile averaged over an ensemble of 104 bursts in the 35-60 keV energy range has FWHM width of 3.6 H 0.3 s and displays a factor of 2 faster rise time than decay and a pronounced dip in persistent emission after the burst. The phase of the sinusoidal pulse profile during bursts lags the phase prior to bursts by 390 ms (31.2 radians), and a 29 H 6 ms (0.39 H 0.08 radians) lag persists following the burst. There are no statistically significant spectral differences between the hard X-ray spectra of the bursting and persistent emission in the OSSE energy range, nor is there any evidence of annihilation or neutron capture line emission or cyclotron absorption.
Related Papers
- → Dynamics of different compound bursting in two phantom bursting mechanism models(2014)25 cited
- → Periodic bursting behaviors induced by pulse-shaped explosion or non-pulse-shaped explosion in a van der Pol-Mathieu oscillator with external excitation(2021)24 cited
- → Onset of Bursting in Oxytocin Cells in Suckled Rats(1997)66 cited
- → A Hodgkin–Huxley Model Exhibiting Bursting Oscillations(2000)59 cited
- → Collective Bursting in Populations of Intrinsically Nonbursting Neurons(1999)5 cited