High-energy particle acceleration in the shell of a supernova remnant

Aharonian, F.; Akhperjanian, A. G.; Aye, K.-M.; Bazer‐Bachi, A. R.; Beilicke, M.; Benbow, W.; Berge, D.; Berghaus, P.; Bernlöhr, K.; Bolz, O.; Boisson, C.; Borgmeier, C.; Breitling, F.; Brown, A. M.; Gordo, J. Bussons; Chadwick, P. M.; Chitnis, V. R.; Chounet, L.‐M.; Cornils, R.; Costamante, L.; Degrange, B.; Djannati‐Ataï, A.; Drury, L. O’c.; Ergin, T.; Espigat, P.; Feinstein, F.; Fleury, P.; Fontaine, G.; Funk, S.; Gallant, Y. A.; Giebels, B.; Gillessen, S.; Goret, P.; Guy, J.; Hadjichristidis, C.; Hauser, M.; Heinzelmann, G.; Henri, G.; Hermann, G.; Hinton, J. A.; Hofmann, W.; Holleran, M.; Horns, D.; Jager, O. C. de; Jung, I.; Khélifi, B.; Komin, Nu.; Konopelko, A.; Latham, I. J.; Gallou, R. Le; Lemoine, Martin; Lemière, A.; Leroy, N.; Löhse, T.; Marcowith, A.; Masterson, C.; McComb, T. J. L.; Naurois, M. de; Nolan, S. J.; Noutsos, A.; Orford, K. J.; Osborne, J. L.; Ouchrif, M.; Panter, M.; Pelletier, G.; Pita, S.; Pohl, M.; Pühlhofer, G.; Punch, M.; Raubenheimer, Britt; Raue, M.; Raux, J.; Rayner, S. M.; Redondo, I.; Reimer, A.; Ripken, J.; Rivoal, M.; Rob, L.; Rolland, L.; Rowell, G.; Sahakian, V.; Saugé, L.; Schlenker, S.; Schlickeiser, R.; Schuster, C.; Schwanke, U.; Siewert, M.; Sol, H.; Steenkamp, R.; Stegmann, C.; Tavernet, J.‐P.; Théoret, C. G.; Tluczykont, M.; Walt, D. J. van der; Vasileiadis, G.; Vincent, P.; Visser, Bart; Völk, H. J.; Wagner, S. J.

doi:10.1038/nature02960

Cited by 489 publications

(292 citation statements)

References 16 publications

(20 reference statements)

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“…The High Energy Stereoscopic System (H.E.S.S.) [4] has clearly identified supernova shock waves as sources of high-energy particles [5,6]. However, the nature of these particles -electrons or cosmic-ray nucleons-remains under debate.…”

Section: A Motivationmentioning

confidence: 99%

First ground-based measurement of atmospheric Cherenkov light from cosmic rays

Aharonian¹,

Akhperjanian²,

Bazer‐Bachi³

et al. 2007

Phys. Rev. D

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Section: A Motivationmentioning

confidence: 99%

First ground-based measurement of atmospheric Cherenkov light from cosmic rays

Aharonian¹,

Akhperjanian²,

Bazer‐Bachi³

et al. 2007

Phys. Rev. D

Self Cite

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“…Only recently, a new generation of atmospheric Cherenkov telescopes, especially HESS, were able to find the smoking-gun of the interaction of CRs accelerated by an active SNR with a close MC. The most interesting HESS observations in this respect are those of RXJ1713.7-3946 [5] and the very recent measurements of the Galactic Centre (GC) ridge emission [6].…”

Section: Introductionmentioning

confidence: 99%

TeV neutrinos from supernova remnants embedded in giant molecular clouds

Cavasinni

Grasso

Maccione

2006

Astroparticle Physics

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The recent detection of γ-rays with energy up to 10 TeV from dense regions surrounding some Supernova Remnants (SNR) provides strong, though still not conclusive, evidence that the nucleonic component of galactic Cosmic Rays is accelerated in the supernova outflows. Neutrino telescopes could further support the validity of such scenario by detecting neutrinos coming from the same regions. We re-evaluate the TeV range neutrino-photon flux ratio to be expected from pion decay, finding small differences respect to previous derivations. We apply our results and the recent HESS measurements of the very high energy γ-ray flux from the molecular cloud complex in the Galactic Centre, to estimate the neutrino flux from that region discussing the detectability perspectives for Mediterranean Neutrino Telescopes. We also discuss under which conditions neutron decay may give rise to a significant TeV antineutrino flux from a SNR embedded in Molecular Cloud complexes.

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“…Also, X-ray synchrotron emitting TeV electrons were identified at the shock fronts of the SN 1006 supernova remnant and others (Koyama et al, 1995, and see section 2.3). In the last decade, GeV and TeV γ-ray emission has been observed from several supernova remnants (Table 1.1), indicating the presence of particles with GeV and TeV energies (e.g., Aharonian et al, 2004;, and see section 2.13).…”

Section: Supernovae and Their Remnants As Sources Of Galactic Cosmic mentioning

confidence: 99%

“…1 , 2 Albert et al (2007b); Acciari et al (2010), 3 Fesen et al (2006), 4 Reynolds et al (2008), 5 H.E.S.S. Collaboration et al (2011), 6 Aharonian et al (2009), 7 Stephenson and Green (2002), 8 Abdo and Fermi LAT Collaboration (2011), 9 Aharonian et al (2004), 10 Wang et al (1997), 11 Tanaka et al (2011), 12 HESS Collaboration: F. A. , 13 Katsuda et al (2008), 14 Acero et al (2010), 15 Park et al (2010), 16 Giordano et al (2011), 17 Acciari et al (2011) Drury, 2001; Schure et al, 2012, for a review). The somewhat softer CR spectrum observed in the Earth's, might be explained by propagation effects of CRs through the Galaxy.…”

Section: Supernovae and Their Remnants As Sources Of Galactic Cosmic mentioning

confidence: 99%

Observational Signatures of Particle Acceleration in Supernova Remnants

Helder¹,

Vink²,

Bykov³

et al. 2012

Particle Acceleration in Cosmic Plasmas

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We evaluate the current status of supernova remnants as the sources of Galactic cosmic rays. We summarize observations of supernova remnants, covering the whole electromagnetic spectrum and describe what these observations tell us about the acceleration processes by high Mach number shock fronts. We discuss the shock modification by cosmic rays, the shape and maximum energy of the cosmic-ray spectrum and the total energy budget of

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High-energy particle acceleration in the shell of a supernova remnant

Cited by 489 publications

References 16 publications

First ground-based measurement of atmospheric Cherenkov light from cosmic rays

First ground-based measurement of atmospheric Cherenkov light from cosmic rays

TeV neutrinos from supernova remnants embedded in giant molecular clouds

Observational Signatures of Particle Acceleration in Supernova Remnants

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