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Conference papers

Cosmic-ray acceleration and gamma-ray signals from radio supernovae

Alexandre Marcowith 1 Matthieu Renaud 1 V. Dwarkadas V. Tatischeff 2
CSNSM - Centre de Spectrométrie Nucléaire et de Spectrométrie de Masse, CSNSM - Centre de Sciences Nucléaires et de Sciences de la Matière
Abstract : In this work the efficiency of particle acceleration at the forward shock right after the SN outburst for the particular case of the well-known SN 1993J is analyzed. Plasma instabilities driven by the energetic particles accelerated at the shock front grow over intraday timescales and drive a fast amplification of the magnetic field at the shock, that can explain the magnetic field strengths deduced from the radio monitoring of the source. The maximum particle energy is found to reach 1-10 PeV depending on the instability dominating the amplification process. We derive the time dependent particle spectra and the associated hadronic signatures of secondary particles arising from proton proton interactions. We find that the Cherenkov Telescope Array (CTA) should easily detect objects like SN 1993J in particular above 1 TeV, while current generation of Cherenkov telescopes such as H.E.S.S. could only marginally detect such events. The gamma-ray signal is found to be heavily absorbed by pair production process during the first week after the outburst. We predict a low neutrino flux above 10 TeV, implying a detectability horizon with a KM3NeT-type telescope of 1 Mpc only. We finally discuss the essential parameters that control the particle acceleration and gamma-ray emission in other type of SNe.
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Submitted on : Thursday, September 25, 2014 - 12:26:57 PM
Last modification on : Thursday, November 25, 2021 - 3:23:20 PM




Alexandre Marcowith, Matthieu Renaud, V. Dwarkadas, V. Tatischeff. Cosmic-ray acceleration and gamma-ray signals from radio supernovae. Cosmic Ray Origin beyond the standard models, Mar 2014, San Vito, Italy. ⟨in2p3-01068268⟩



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