Cygnus X-3: A variable petaelectronvolt gamma-ray source
Abstract
We report the discovery of variable γ-rays up to petaelectronvolt from Cygnus X-3, an iconic X-ray binary. The γ-ray signal was detected with a statistical significance of approximately 10 σ by the Large High Altitude Air Shower Observatory (LHAASO). Its intrinsic spectral energy distribution (SED), extending from 0.06 to 3.7 PeV, shows a pronounced rise toward 1 PeV after accounting for absorption by the cosmic microwave background radiation. We find variability on month-long timescales at a significance of 8.6 σ, coinciding with a high state of the GeV gamma-ray flux detected by the Fermi-LAT. This,together with a 3.2σ evidence for orbital modulation, suggests that the PeV γ-rays originate within, or in close proximity to, the binary system itself. The observed energy spectrum and temporal modulation can be naturally explained by γ-ray production through photomeson processes in the innermost region of the relativistic jet, where protons need to be accelerated to tens of PeV energies.
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