Hard X-ray emissions from Cassiopeia A observed by INTEGRAL

Abstract

Cassiopeia A (Cas A) as the nearby young remnant of a core-collapse supernova is the best candidate for astrophysical studies in supernova explosion and its environment. We studied hard X-ray emissions from Cas A using the ten-year data of INTEGRAL observations, and first detected non-thermal continuum emission from the source up to 220 keV. The 44Ti line emissions at 68 and 78 keV are confirmed by our observations with a mean flux of (2.2 0.4)× 10-5 ph cm-2 s-1, corresponding to a 44Ti yield in Cas A of (1.3 0.4)× 10-4 . The continuum emission from 3 -- 500 keV can be fitted with a thermal bremsstrahlung of kT 0.79 0.08 keV plus a power-law model of 3.13 0.03. The non-thermal emission from Cas A is well fitted with a power-law model without a cutoff up to 220 keV. This radiation characteristic is inconsistent with the diffusive shock acceleration models with the remnant shock velocity of only 5000km s-1. The central compact object in Cas A cannot contribute to the emission above 80 keV significantly. Some possible physical origins of the non-thermal emission above 80 keV from the remnant shock are discussed. We deduce that the asymmetrical supernova explosion scenario of Cas A is a promising scenario to produce high energy synchrotron radiation photons, where a part of ejecta with the velocity of 0.1c and opening angle of 10 can account for the 100-keV emission, consistent with the "jet" observed in Cas A.