A review of quasi-periodic oscillations from black hole X-ray binaries: Observation and theory

Ingram, Adam; Motta, S.

doi:10.1016/j.newar.2020.101524

Cited by 209 publications

(185 citation statements)

References 245 publications

(433 reference statements)

Supporting

Mentioning

176

Contrasting

Order By: Relevance

“…This result was interpreted as a contraction in the X-ray corona. This hypothesis has been later confirmed by reflection spectroscopy in the context of a dual-lamppost, where the height of the upper lamppost decreased while the lower one stayed constant (Buisson et al 2019), and by the increase of the peak frequency of the quasi-periodic oscillations (QPOs; Ingram & Motta 2019). During the hard-to-soft transition, an extremely powerful superluminal ejection was observed in the radio band (Bright et al 2020) very close in time with a small flare in the 7-12 keV band and a transition from type-C to type-B QPO (Homan et al 2020).…”

Section: Introductionmentioning

confidence: 82%

Disk, Corona, Jet Connection in the Intermediate State of MAXI J1820+070 Revealed by NICER Spectral-timing Analysis

Wang

Mastroserio

Kara

et al. 2021

ApJL

Self Cite

101

View full text Add to dashboard Cite

We analyze five epochs of Neutron star Interior Composition Explorer (NICER) data of the black hole X-ray binary MAXI J1820+070 during the bright hard-to-soft state transition in its 2018 outburst with both reflection spectroscopy and Fourier-resolved timing analysis. We confirm the previous discovery of reverberation lags in the hard state, and find that the frequency range where the (soft) reverberation lag dominates decreases with the reverberation lag amplitude increasing during the transition, suggesting an increasing X-ray emitting region, possibly due to an expanding corona. By jointly fitting the lag-energy spectra in a number of broad frequency ranges with the reverberation model reltrans, we find the increase in reverberation lag is best described by an increase in the X-ray coronal height. This result, along with the finding that the corona contracts in the hard state, suggests a close relationship between spatial extent of the X-ray corona and the radio jet. We find the corona expansion (as probed by reverberation) precedes a radio flare by ∼5 days, which may suggest that the hard-to-soft transition is marked by the corona expanding vertically and launching a jet knot that propagates along the jet stream at relativistic velocities.Unified Astronomy Thesaurus concepts: Low-mass x-ray binary stars (939); Stellar mass black holes (1611); High energy astrophysics (739); Black hole physics (159); X-ray transient sources (1852)

show abstract

Section: Introductionmentioning

confidence: 82%

Disk, Corona, Jet Connection in the Intermediate State of MAXI J1820+070 Revealed by NICER Spectral-timing Analysis

Wang

Mastroserio

Kara

et al. 2021

ApJL

Self Cite

101

View full text Add to dashboard Cite

show abstract

“…A distinctive timing characteristic of BHBs is the evolution of the low-frequency QPOs with spectral states (see Ingram & Motta 2019 for a recent review of different types of QPOs). As a source evolves from the bright end of the HS to the HIMS, type-C QPOs (up to 20 per cent rms in the 2-60 keV, the full energy band of the Proportional Counter Array aboard the Rossi X-ray Timing Explorer, hereafter RXTE/PCA) always appear in the power density spectra (PDS), superimposed on a strong band-limited noise component.…”

Section: Introductionmentioning

confidence: 99%

NICER uncovers the transient nature of the type-B quasi-periodic oscillation in the black hole candidate MAXI J1348−630

Zhang

Altamirano

Uttley

et al. 2021

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

We present a systematic spectral-timing analysis of a fast appearance/disappearance of a type-B quasi-periodic oscillation (QPO), observed in four NICER observations of MAXI J1348−630. By comparing the spectra of the period with and without the type-B QPO, we found that the main difference appears at energy bands above ∼2 keV, suggesting that the QPO emission is dominated by the hard Comptonised component. During the transition, a change in the relative contribution of the disk and Comptonised emission was observed. The disk flux decreased while the Comptonised flux increased from non-QPO to type-B QPO. However, the total flux did not change too much in the NICER band. Our results reveal that the type-B QPO is associated with a redistribution of accretion power between the disk and Comptonised emission. When the type-B QPO appears, more accretion power is dissipated into the Comptonised region than in the disk. Our spectral fits give a hint that the increased Comptonised emission may come from an additional component that is related to the base of the jet.

show abstract

“…During an outburst, the system cycles through different accretion states that are characterized by distinct spectral and timing signatures (e.g. Remillard & McClintock 2006;Belloni 2010;Belloni & Motta 2016;Ingram & Motta 2019). As the outburst begins, these systems are typically observed in a rising hard X-ray state with high rms variability, during which the X-ray spectrum is dominated by a non-thermal power law that is thought to be the result of inverse-Compton scattering by a corona of hot electrons close to the compact object (e.g.…”

mentioning

confidence: 99%

The black hole transient MAXI J1348–630: evolution of the compact and transient jets during its 2019/2020 outburst

Carotenuto

Corbel

Tremou

et al. 2021

Monthly Notices of the Royal Astronomical Society

View full text Add to dashboard Cite

We present the radio and X-ray monitoring campaign of the 2019/2020 outburst of MAXI J1348–630, a new black hole X-ray binary (XRB) discovered in 2019 January. We observed MAXI J1348–630 for ∼14 months in the radio band with MeerKAT and the Australia Telescope Compact Array (ATCA), and in the X-rays with MAXI and Swift/XRT. Throughout the outburst we detected and tracked the evolution of the compact and transient jets. Following the main outburst, the system underwent at least 4 hard-state-only re-flares, during which compact jets were again detected. For the major outburst, we observed the rise, quenching, and re-activation of the compact jets, as well as two single-sided discrete ejecta, launched ∼2 months apart and travelling away from the black hole. These ejecta displayed the highest proper motion (≳100 mas day−1) ever measured for an accreting black hole binary. From the jet motion, we constrain the ejecta inclination and speed to be ≤46○ and ≥0.69 c, and the opening angle and transverse expansion speed of the first component to be ≤6○ and ≤0.05 c. We also infer that the first ejection happened at the hard-to-soft state transition, before a strong radio flare, while the second ejection was launched during a short excursion from the soft to the intermediate state. After traveling with constant speed, the first component underwent a strong deceleration, which was covered with unprecedented detail and suggested that MAXI J1348–630 could be located inside a low-density cavity in the interstellar medium, as already proposed for XTE J1550–564 and H1743–322.

show abstract

A review of quasi-periodic oscillations from black hole X-ray binaries: Observation and theory

Cited by 209 publications

References 245 publications

Disk, Corona, Jet Connection in the Intermediate State of MAXI J1820+070 Revealed by NICER Spectral-timing Analysis

Disk, Corona, Jet Connection in the Intermediate State of MAXI J1820+070 Revealed by NICER Spectral-timing Analysis

NICER uncovers the transient nature of the type-B quasi-periodic oscillation in the black hole candidate MAXI J1348−630

The black hole transient MAXI J1348–630: evolution of the compact and transient jets during its 2019/2020 outburst

Contact Info

Product

Resources

About