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Discovery of evolving low-frequency QPOs in hard X-rays (∼100 keV) observed in black hole Swift J1727.8−1613 with <i>AstroSat</i>

Anuj NandiSpace Astronomy Group, ISITE Campus, U. R. Rao Satellite Centre , Outer Ring Road, Marathahalli, Bangalore 560037 , IndiaSantabrata DasDepartment of Physics, Indian Institute of Technology Guwahati , Guwahati 781039 , IndiaSeshadri MajumderDepartment of Physics, Indian Institute of Technology Guwahati , Guwahati 781039 , IndiaTilak KatochDAA, Tata Institute of Fundamental Research , Colaba, Mumbai 400005 , IndiaH. M. AntiaUM-DAE Centre for Excellence in Basic Sciences, University of Mumbai , Kalina, Mumbai 400098 , IndiaParag ShahDAA, Tata Institute of Fundamental Research , Colaba, Mumbai 400005 , India
2024en
ABI

Аннотация

ABSTRACT We report the first detection of evolving low-frequency quasi-periodic oscillation (LFQPO) frequencies in hard X-rays upto 100 keV with AstroSat/LAXPC during ‘unusual’ outburst phase of Swift J1727.8−1613 in hard intermediate state (HIMS). The observed LFQPO in 20–100 keV has a centroid $\nu _{_{\rm QPO}}=1.43$ Hz, a coherence factor Q = 7.14 and an amplitude ${\rm rms_{_{\rm QPO}}} = 10.95{{\ \rm per\ cent}}$ with significance σ = 5.46. Type-C QPOs (1.09–2.6 Hz) are found to evolve monotonically during HIMS of the outburst with clear detection in hard X-rays (80−100 keV), where ${\rm rms_{_{\rm QPO}}}$ decreases ($\sim 12\!-\!3{{\ \rm per\ cent}}$) with energy. Further, $\nu _{_{\rm QPO}}$ is seen to correlate (anticorrelate) with low- (high-) energy flux in 2–20 keV (15–50 keV). Wide-band (0.7−40 keV) energy spectrum of NICER/XTI and AstroSat/LAXPC is satisfactorily described by the ‘dominant’ thermal Comptonization contribution (∼88 per cent) in presence of a ‘weak’ signature of disc emissions (kTin ∼ 0.36 keV) indicating the harder spectral distribution. Considering source mass $M_{\rm BH}=10\, \mathrm{M}_\odot$ and distance 1.5 &amp;lt; d (kpc) &amp;lt; 5, the unabsorbed bolometric luminosity is estimated as $\sim 0.03\!-\!0.92{{\ \rm per\ cent}}\, L_{\rm Edd}$. Finally, we discuss the implications of our findings in the context of accretion dynamics around black hole X-ray binaries.

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