Relativistic Reflection and Reverberation in GX 339-4 with NICER and NuSTAR

We analyze seven Neutron Star Interior Composition Interior Explorer (NICER) and Nuclear Spectroscopic Telescope Array epochs of the black hole X-ray binary GX 339-4 in the hard state during its two most recent hard-only outbursts in 2017 and 2019. These observations cover the 1-100 keV unabsorbed l...

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Veröffentlicht in:	The Astrophysical journal 2020-08, Vol.899 (1), p.44
Hauptverfasser:	Wang, Jingyi, Kara, Erin, Steiner, James F., García, Javier A., Homan, Jeroen, Neilsen, Joseph, Marcel, Grégoire, Ludlam, Renee M., Tombesi, Francesco, Cackett, Edward M., Remillard, Ron A.
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Sprache:	eng
Schlagworte:	Astrophysical black holes Astrophysics Black holes High energy astrophysics Hysteresis Low-mass X-ray binary stars Luminosity Neutron flux Neutron stars Outbursts Reflection Relativistic effects Reverberation Spectra Spectroscopic telescopes Stellar mass black holes X ray binaries X ray stars X-ray astronomy
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creator	Wang, Jingyi Kara, Erin Steiner, James F. García, Javier A. Homan, Jeroen Neilsen, Joseph Marcel, Grégoire Ludlam, Renee M. Tombesi, Francesco Cackett, Edward M. Remillard, Ron A.
description	We analyze seven Neutron Star Interior Composition Interior Explorer (NICER) and Nuclear Spectroscopic Telescope Array epochs of the black hole X-ray binary GX 339-4 in the hard state during its two most recent hard-only outbursts in 2017 and 2019. These observations cover the 1-100 keV unabsorbed luminosities between 0.3% and 2.1% of the Eddington limit. With NICER's negligible pileup, high count rate, and unprecedented time resolution, we perform a spectral-timing analysis and spectral modeling using relativistic and distant reflection models. Our spectral fitting shows that as the inner disk radius moves inward, the thermal disk emission increases in flux and temperature, the disk becomes more highly ionized, and the reflection fraction increases. This coincides with the inner disk increasing its radiative efficiency around ∼1% Eddington. We see a hint of the hysteresis effect at ∼0.3% of Eddington; the inner radius is significantly truncated during the rise (>49Rg), while only a mild truncation (∼5Rg) is found during the decay. At higher frequencies (2-7 Hz) in the highest-luminosity epoch, a soft lag is present whose energy dependence reveals a thermal reverberation lag with an amplitude similar to previous findings for this source. We also discuss the plausibility of the hysteresis effect and the debate of the disk truncation problem in the hard state.
doi_str_mv	10.3847/1538-4357/ab9ec3
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These observations cover the 1-100 keV unabsorbed luminosities between 0.3% and 2.1% of the Eddington limit. With NICER's negligible pileup, high count rate, and unprecedented time resolution, we perform a spectral-timing analysis and spectral modeling using relativistic and distant reflection models. Our spectral fitting shows that as the inner disk radius moves inward, the thermal disk emission increases in flux and temperature, the disk becomes more highly ionized, and the reflection fraction increases. This coincides with the inner disk increasing its radiative efficiency around ∼1% Eddington. We see a hint of the hysteresis effect at ∼0.3% of Eddington; the inner radius is significantly truncated during the rise (>49Rg), while only a mild truncation (∼5Rg) is found during the decay. At higher frequencies (2-7 Hz) in the highest-luminosity epoch, a soft lag is present whose energy dependence reveals a thermal reverberation lag with an amplitude similar to previous findings for this source. 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J</addtitle><description>We analyze seven Neutron Star Interior Composition Interior Explorer (NICER) and Nuclear Spectroscopic Telescope Array epochs of the black hole X-ray binary GX 339-4 in the hard state during its two most recent hard-only outbursts in 2017 and 2019. These observations cover the 1-100 keV unabsorbed luminosities between 0.3% and 2.1% of the Eddington limit. With NICER's negligible pileup, high count rate, and unprecedented time resolution, we perform a spectral-timing analysis and spectral modeling using relativistic and distant reflection models. Our spectral fitting shows that as the inner disk radius moves inward, the thermal disk emission increases in flux and temperature, the disk becomes more highly ionized, and the reflection fraction increases. This coincides with the inner disk increasing its radiative efficiency around ∼1% Eddington. We see a hint of the hysteresis effect at ∼0.3% of Eddington; the inner radius is significantly truncated during the rise (>49Rg), while only a mild truncation (∼5Rg) is found during the decay. At higher frequencies (2-7 Hz) in the highest-luminosity epoch, a soft lag is present whose energy dependence reveals a thermal reverberation lag with an amplitude similar to previous findings for this source. 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subjects	Astrophysical black holes Astrophysics Black holes High energy astrophysics Hysteresis Low-mass X-ray binary stars Luminosity Neutron flux Neutron stars Outbursts Reflection Relativistic effects Reverberation Spectra Spectroscopic telescopes Stellar mass black holes X ray binaries X ray stars X-ray astronomy
title	Relativistic Reflection and Reverberation in GX 339-4 with NICER and NuSTAR
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