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Timing analysis of the newly discovered black hole candidate Swift J1727.8−1613 with <i>Insight</i>-<i>HXMT</i>

Wei Yu, Qingcui Bu, Shuang‐Nan Zhang, He-Xin Liu, Liang Zhang, L. Ducci, Lian Tao, A. Santangelo, Victor Doroshenko, Y. Huang, Zi-Xu Yang, Jin‐Lu Qu

2024Monthly Notices of the Royal Astronomical Society29 citationsDOIOpen Access PDF

Abstract

ABSTRACT We present the results obtained from an X-ray timing study of the new black hole candidate Swift J1727.8−1613. The work is based on Hard X-ray Modulation Telescope (Insight-HXMT) observations carried out during the 2023 outburst. Prominent type-C low-frequency Quasi-periodic Oscillations (LFQPOs) are detected throughout the observations. With the substantial effective area of the Insight-HXMT at high energies, we examine the energy dependence of various parameters, including the centroid frequency, fractional rms, and phase lags of the type-C QPOs. Our findings align closely with those observed in high-inclination systems. During the initial stage of the outburst, a peaked noise component is also detected, the frequency of which is highly correlated with the LFQPO frequency, aligning with the Psaltis–Belloni–van der Klis relation. By assuming that the peaked noise originates from the precession of the accretion disc, the spin of this source can be constrained. Our results suggest that this source may possess a high spin.

Topics & Concepts

PhysicsAstrophysicsPrecessionSwiftBlack hole (networking)Accretion (finance)Spin (aerodynamics)CentroidNoise (video)Accretion discTelescopeAstronomyGeometryComputer networkComputer scienceRouting (electronic design automation)Routing protocolArtificial intelligenceMathematicsLink-state routing protocolImage (mathematics)ThermodynamicsAstrophysical Phenomena and ObservationsPulsars and Gravitational Waves ResearchHigh-pressure geophysics and materials