Published online by Cambridge University Press: 11 June 2009
Very high energy gamma-ray astronomy is now bringing an invaluable contributionto the understanding of violent phenomena in the Universe, as well as the searchfor exotic physics such as indirect detection of dark matter or a test ofLorentz invariance violation. The current Imaging Arrays of Cherenkov Telescopes(IACT) show that this technique is mature. In Europe, the community is gatheringaround the Cherenkov Telescope Array consortium, to design and build the next generationground-based array. It should reach an order of magnitude in sensitivity in awide energy band, ranging from 10 GeV to more than 100 TeV. This goal can beachieved with an array of 50–100 telescopes of various sizes at variousspacings. With about 2000 channels per camera, a specific effort has to be madeto design front-end electronics with a lower cost and better performances.A gain in cost and performances can be obtained by maximising the integration of thefront-end electronics in an ASIC. The amplifiers, analogue memories,digitization and first level buffering can be embedded in the same component.We present here the NECTAr project aiming at building a demonstrator element ofa generic camera built around this component.