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X-ray hotspot flares and implications for cosmic ray acceleration and magnetic field amplification in supernova remnants

2008; Oxford University Press; Volume: 386; Issue: 1 Linguagem: Inglês

10.1111/j.1745-3933.2008.00452.x

1745-3933

Y. Butt, T. A. Porter, Boaz Katz, Eli Waxman,

Neutrino Physics Research

Abstract For more than 50 years, it has been believed that cosmic ray (CR) nuclei are accelerated to high energies in the rapidly expanding shockwaves created by powerful supernova explosions. Yet observational proof of this conjecture is still lacking. Recently, Uchiyama and collaborators reported the detection of small-scale X-ray flares in one such supernova remnant, dubbed ‘RX J1713−3946’ (a.k.a. G347.3−0.5), which also emits very energetic, TeV (1012 eV) range, gamma-rays. They contend that the variability of these X-ray ‘hotspots’ implies that the magnetic field in the remnant is about a hundred times larger than normally assumed; and this, they say, means that the detected TeV range photons were produced in energetic nuclear interactions, providing ‘a strong argument for acceleration of protons and nuclei to energies of 1 PeV (1015 eV) and beyond in young supernova remnants’. We point out here that the existing multiwavelength data on this object certainly do not support such conclusions. Though intriguing, the small-scale X-ray flares are not the long sought – after ‘smoking gun’ of nucleonic CR acceleration in supernova remnants.