A broadband view on microquasar MAXI J1820+070 during the 2018 outburst
Abstract
The microquasar MAXI J\(1820+070\) went into outburst from mid-March until mid-July 2018 with several faint rebrightenings afterwards. With a peak flux of approximately 4 Crab in the \(20-50\) keV, energy range the source was monitored across the electromagnetic spectrum with detections from radio to hard X-ray frequencies. Using these multi-wavelength observations, we analyzed quasi-simultaneous observations from 12 April, near the peak of the outburst (\( 23\) March). Spectral analysis of the hard X-rays found a \(kTe 30 \) keV and \( τ 2\) with a CompTT model, indicative of an accreting black hole binary in the hard state. The flat/inverted radio spectrum and the accretion disk winds seen at optical wavelengths are also consistent with the hard state. Then we constructed a spectral energy distribution spanning \( 12\) orders of magnitude using modelling in JetSeT. The model is composed of an irradiated disk with a Compton hump and a leptonic jet with an acceleration region and a synchrotron-dominated cooling region. JetSeT finds the spectrum is dominated by jet emission up to approximately \(1014\) Hz after which disk and coronal emission dominate. The acceleration region has a magnetic field of \( B 1.6 × 104 \) G, a cross section of \(R 2.8 × 109 \) cm, and a flat radio spectral shape naturally obtained from the synchroton cooling of the accelerated electrons. The jet luminosity of \(> 8 × 1037 \) erg/s (\(> 0.15LEdd\)) compared to an accretion luminosity of \( 6 × 1037\) erg/s, assuming a distance of 3 kpc. Because these two values are comparable, it is possible the jet is powered predominately via accretion with only a small contribution needed from the Blanford-Znajek mechanism from the reportedly slowly spinning black hole.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.