2022
DOI: 10.3847/2041-8213/ac504a
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Evidence for X-Ray Emission in Excess to the Jet-afterglow Decay 3.5 yr after the Binary Neutron Star Merger GW 170817: A New Emission Component

Abstract: For the first ∼3 yrs after the binary neutron star merger event GW 170817, the radio and X-ray radiation has been dominated by emission from a structured relativistic off-axis jet propagating into a low-density medium with n < 0.01 cm−3. We report on observational evidence for an excess of X-ray emission at δt > 900 days after the merger. With L x ≈ 5 × 1038 erg s−1 at 1234 days, the recently detected X-ray emission represents a ≥3.2σ (Gaussian e… Show more

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Cited by 61 publications
(73 citation statements)
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“…1 shows the cumulative kinetic energy histogram of βΓ. The spectrum shape is in broad agreement with the previously reported results (Hotokezaka et al 2016(Hotokezaka et al , 2018Hajela et al 2022) apart from the extension to a higher βΓ side than previously. The dependence of Y e and velocity distributions on the grid resolution is discussed in Appendix C.…”
Section: D Simulationssupporting
confidence: 90%
See 1 more Smart Citation
“…1 shows the cumulative kinetic energy histogram of βΓ. The spectrum shape is in broad agreement with the previously reported results (Hotokezaka et al 2016(Hotokezaka et al , 2018Hajela et al 2022) apart from the extension to a higher βΓ side than previously. The dependence of Y e and velocity distributions on the grid resolution is discussed in Appendix C.…”
Section: D Simulationssupporting
confidence: 90%
“…Although we here evaluate the mass of the postmerger ejecta assuming that all the internal energy will be converted to the kinetic energy (i.e., Bernoulli's criterion), a fraction of matter can turn around before this conversion completes and then fall back onto the black hole-disk system (e.g., Ishizaki et al 2021b). This fall-back matter may energize late-time electromagnetic emission such as that observed in the afterglow of GRB 170817A (Ishizaki et al 2021a;Hajela et al 2022). To clarify the uncertainty in the effect of fall back, we need a computation for the very long-term evolution of the outflowed matter (e.g., Kawaguchi et al 2021 andRosswog et al 2014).…”
Section: Post-merger Mass Ejectionmentioning
confidence: 99%
“…While the high-velocity ejecta are still not well-resolved, we note that our simulations here have an order of magnitude more particles than the approximate GR simulations in which these fast ejecta were originally identified [113]. This high-velocity component could have important observational consequences: it may produce an early blue/UV transient on a time scale of several minutes to an hour preceding the main kilonova event [113], and at late times, it may be responsible for synchrotron emission [114][115][116]. Another interesting result in a multi-messenger context is that the ejecta distribution only shows moderate deviations from spherical symmetry, so that the resulting electromagnetic emission could be reasonably modeled with simple approaches.…”
Section: Ejectamentioning
confidence: 78%
“…In addition to the jet afterglow, a long-term synchrotron flare is expected to arise from the merger ejecta on timescales of ∼1-10 4 yr (Nakar & Piran 2011;Hotokezaka & Piran 2015;Hotokezaka et al 2018;Margalit & Piran 2020). Interestingly, the X-ray flux observed around 3.5 yr after GW170817 exceeds the expected flux of the jet afterglow, suggesting that the ejecta afterglow starts to dominate over the jet component (Hajela et al 2022;Troja et al 2022). However, the origin of the X-ray excess is sill under debate because the radio flux is still consistent with the prediction of the jet afterglow (Balasubramanian et al 2021).…”
Section: Introductionmentioning
confidence: 99%