Abstract
ABSTRACTShocks in novae outbursts are ubiquitous, but in symbiotic novae, they are particularly powerful, probably because of the surrounding red giant wind. The recurrent nova RS Oph is the best example of this phenomenon. The presence of shocked plasma in outburst was inferred from optical spectra, and it was confirmed by X‐ray observations since 1985. Since 2010, the gamma‐ray observatory Fermi has proven that novae in general are the site of particle acceleration, producing copious gamma‐ray flux in the few‐GeV range. In the last outburst of the symbiotic RS Oph in 2021, gamma‐rays were not only detected with Fermi in the GeV range but also detected in the TeV range of the Cherenkov telescopes, for about 3 weeks. Diesing et al. in 2023 showed that there must have been at least two distinct episodes of shocks, likely of hadronic nature, both generating particle acceleration. We present new NuSTAR data and re‐discuss XMM‐Newton high‐resolution grating spectra and NICER data that we recently published. We concluded that the primary shock causing the particle acceleration observed in the range of TeV gamma‐rays with the Cherenkov telescopes was the same phenomenon observed and studied with the x‐ray observatories. However, the shocked plasma from which the particles were accelerated causing the gamma‐ray flux observed after 1 day with Fermi was—at least initially—unobservable. We suggest that this first episode of shock occurred when the nova ejecta collided with a dense outflow close to the atmosphere of the red giant, with such a high absorbing column that x‐rays were absorbed.
Published Version
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