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Evidence for Returning Disk Radiation in the Black Hole X-Ray Binary XTE J1550–564

Riley M. T. Connors, Javier A. García, Thomas Dauser, Victoria Grinberg, James F. Steiner, Navin Sridhar, Jörn Wilms, John Tomsick, Fiona Harrison, Stefan Licklederer

2020The Astrophysical Journal43 citationsDOIOpen Access PDF

Abstract

Abstract We explore the accretion properties of the black hole X-ray binary XTE J1550−564 during its outbursts in 1998/99 and 2000. We model the disk, corona, and reflection components of X-ray spectra taken with the Rossi X-ray Timing Explorer , using the relxill suite of reflection models. The key result of our modeling is that the reflection spectrum in the very soft state is best explained by disk self-irradiation, i.e., photons from the inner disk are bent by the strong gravity of the black hole and reflected off the disk surface. This is the first known detection of thermal disk radiation reflecting off the inner disk. There is also an apparent absorption line at ∼6.9 keV, which may be evidence of an ionized disk wind. The coronal electron temperature ( kT e ) is, as expected, lower in the brighter outburst of 1998/99, explained qualitatively by more efficient coronal cooling due to irradiating disk photons. The disk inner radius is consistent with being within a few times the innermost stable circular orbit throughout the bright-hard-to-soft states (10 s of r g in gravitational units). The disk inclination is low during the hard state, disagreeing with the binary inclination value, and very close to 90° in the soft state, recovering to a lower value when adopting a blackbody spectrum as the irradiating continuum.

Topics & Concepts

PhysicsAstrophysicsBlack-body radiationRADIUSAccretion (finance)Orbital inclinationX-ray binaryBlack hole (networking)Spectral lineThick diskAstronomyReflection (computer programming)Thin diskCircular orbitNeutron starOrbital planeCorona (planetary geology)PhotonLine (geometry)Strong gravityRadiationBinary starOrbit (dynamics)Binary numberAccretion discGravitationRadiative transferIonizationCoronal loopSynchrotron radiationIntermediate polarEmission spectrumGravitational waveElectronSolar radiusAbsorption (acoustics)Compact starIntermediate-mass black holeRotating black holeBe starAstrophysical Phenomena and ObservationsAstrophysics and Star Formation StudiesAstronomy and Astrophysical Research
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