Failed-Transition outbursts in Black hole low-mass X-ray binaries

K. Alabarta*, D. Altamirano, M. Méndez, V. A. Cúneo, F. M. Vincentelli, N. Castro-Segura, F. García, B. Luff, A. Veledina

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

23 Citations (Scopus)
85 Downloads (Pure)

Abstract

Black hole low-mass X-ray binaries (BH LMXBs) evolve in a similar way during outburst. Based on the X-ray spectrum and variability, this evolution can be divided into three canonical states: low/hard, intermediate and high/soft state. BH LMXBs evolve from the low/hard to the high/soft state through the intermediate state in some outbursts (here called "full outbursts"). However, in other cases, BH LMXBs undergo outbursts in which the source never reaches the high/soft state, here called "Failed-Transition outburst" (FT outbursts). From a sample of 56 BH LMXBs undergoing 128 outbursts, we find that $\sim$36% of these BH LMXBs experienced at least one FT outburst, and that FT outbursts represent $\sim$33% of the outbursts of the sample, showing that these are common events. We compare all the available X-ray data of full and FT outbursts of BH LMXBs from RXTE/PCA, Swift/BAT and MAXI and find that FT and full outbursts cannot be distinguished from their X-ray light curves, HIDs or X-ray variability during the initial 10-60 days after the outburst onset. This suggests that both types of outbursts are driven by the same physical process. We also compare the optical and infrared (O/IR) data of FT and full outbursts of GX 339-4. We found that this system is generally brighter in O/IR bands before an FT outburst, suggesting that the O/IR flux points to the physical process that later leads to a full or an FT outburst. We discuss our results in the context of models that describe the onset and evolution of outbursts in accreting X-ray binaries.
Original languageEnglish
Pages (from-to)5507-5522
Number of pages16
JournalMonthly Notices of the Royal Astronomical Society
Volume507
Issue number4
Early online date1-Jul-2021
DOIs
Publication statusPublished - 14-Aug-2021

Keywords

  • Astrophysics - High Energy Astrophysical Phenomena

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