http://arxiv.org/abs/2304.11937
We present a timing and noise analysis of the Be/X-ray binary system Swift J0243.6+6124 during its 2017-2018 super-Eddington outburst using NICER/XTI observations. For the initial segments of the data that overlap with the Fermi/GBM pulse frequency history, we apply a synthetic pulse timing analysis to enrich the spin frequency history of the source. In addition, we employ phase-coherent timing analysis for NICER/XTI observations that extends beyond the Fermi/GBM frequency history. We show that the pulse profiles switch from double-peaked to single-peaked when the X-ray luminosity drops below $\sim$$7\times 10^{36}$ erg s$^{-1}$. We suggest that this transitional luminosity is associated with the transition from a pencil beam pattern to a hybrid beam pattern when the Coulomb interactions become ineffective to decelerate the accretion flow, which implies a dipolar magnetic field strength of $\sim$$5\times 10^{12}$ G. We also obtained the power density spectra (PDS) of the spin frequency derivative fluctuations. The red noise component of the PDS is found to be steeper ($\omega^{-3.36}$) than the other transient accreting sources. We find significantly high noise strength estimates above the super-Eddington luminosity levels, which may arise from the torque fluctuations due to interactions with the quadrupole fields at such levels.
M. Serim, &. Dönmez, D. Serim, et. al.
Tue, 25 Apr 23
61/72
Comments: 18 pages, 7 figures. Submitted to MNRAS
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