HESS J1616-508 is one of the brightest sources in the sky at TeV energies. It was discovered in a survey of the inner part of the Galactic Plane (Galactic longitude -30 degrees < l < 30 degrees and latitude -3 degrees < b < 3 degrees) performed with the ground based High Energy Stereoscopic System (HESS) in early 2004 - see related publication by Aharonian, F. et al. [2005]. In addition to HESS J1616-508, the HESS survey detected seven other new sources at high energies, above 100 GeV.

HESS J1616-508 is nearly circular in shape with an apparent diameter of 16' and to date no counterpart has been detected within its extension at other wavelengths. Surrounding the bright and stable TeV source however, are several energetic astronomical objects, including two supernova remnants - RCW 103 and Kes 32 - and the X-ray bright pulsar PSR J1617-5055 (see above images of the region in soft gamma rays and X-rays).

PSR J1617-5055

The young pulsar PSR J1617-5055 is located only 9' from the centre of the HESS J1616-508 TeV extension. It is labelled as A in figure 1 and 2. Reported in the paper by Landi et al. [2007] recent observations by INTEGRAL show it to be a powerful source of soft gamma rays between 17 and 300 keV (figure 1 and 3).

Landi et al. also show that data from both BeppoSAX and XMM-Newton prove the pulsar to be the only stable source at energies above a few keV in the region surrounding HESS J1616-508. The X-ray bright source 1E 161348-5055.1 (labelled as B in figure 1 and 2) at the centre of the supernova remnant RCW 103 is discarded as a possible counterpart for the TeV source, mainly due to its high variability.

Models of the pulsar PSR J1617-5055 with electrons being accelerated in a jet can satisfactorily account for the pulsar's observed X-ray and gamma ray emission as well as the bright TeV emission in the adjacent HESS J1616-508 extension. To explain the latter, lower energy electrons from the pulsar are thought to interact with photons from the Cosmic Microwave Background (CMB) and through inverse Compton scattering accelerate the CMB photons to TeV energies.

The combined measurements lead the authors to conclude that the pulsar is the most likely source of the bright TeV emission identified as HESS J1616-508. This in favour of two other possibilities: 1) the source is coincident with the TeV emission region but too weak at other wavelengths to be detectable, 2) the existence of a dark particle accelerator which has no associated X-ray and radio emission.

+ see this page for detailed images and captions referred to in this reports

Related Publications: Landi, R. et al. 2007, HESS J1616-508: likely powered by PSR J1617-5055, astro-ph(0707.0832), M.N.R.A.S. in press. Aharonian, F. et al. 2005, A New Population of Very High Energy Gamma-Ray Sources in the Milky Way, Science, 307, 5717, pp. 1938-1942

Related Links
INTEGRAL
INTEGRAL Science Operation Centre (ISOC)
The HESS project
Stellar Chemistry, The Universe And All Within It

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