Upper limits to the SN1006 multi-TeV gamma-ray flux from H.E.S.S. observations

Abstract

Observations of the shell-type supernova remnant SN1006 have been carried out with the H.E.S.S. system of Cherenkov telescopes during 2003 (18.2h with two operating telescopes) and 2004 (6.3h with all four telescopes). No evidence for TeV gamma-ray emission from any compact or extended region associated with the remnant is seen and resulting upper limits at the 99.9% confidence level are up to a factor 10 lower than previously-published fluxes from CANGAROO. For SN1006 at its current epoch of evolution we give limits for a number of important global parameters. Upper limits on the gamma-ray luminosity (for E=0.26 to 10 TeV, distance d=2 kpc) of L_gamma < 1.7x10^{33} erg s^{-1}, and the total energy in corresponding accelerated protons, W_p<1.6\times 10^{50} erg (for proton energies E_p \sim 1.5 to 60 TeV and assuming the lowest value n=0.05 cm^{-3} of the ambient target density discussed in literature) are estimated. Extending this estimate to cover the range of proton energies observed in the cosmic ray spectrum up to the knee (we take here E_p ~ 1 GeV to 3 PeV, assuming a differential particle index -2) gives W_p25microG results when considering the synchrotron/inverse-Compton framework for the observed X-ray flux and gamma-ray upper limits.