Eschbach S, Ziegler A, van Eldik C, Veh J, Berge D, Gaug M (2015)
Publication Status: Published
Publication Type: Conference contribution, Conference Contribution
Publication year: 2015
Publisher: Proceedings of Science (PoS)
Pages Range: 1025
Article Number: 1025
Conference Proceedings Title: 34th International Cosmic Ray Conference (ICRC2015)
URI: https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84988734611&origin=inward
Current arrays of Imaging Atmospheric Cherenkov Telescopes (IACTs) routinely achieve an astrometric point-source location accuracy of 20-30 seconds of arc (given large photon statistics), which is well below the angular resolution obtained for individual photons. The location accuracy is mainly limited by systematic uncertainties due to possible deformations of the telescopes' structures, causing a mis-orientation between the nominal optical axes of the telescopes and their actual pointing directions. Usually, only a subset of telescopes is triggered for a given gammaray event, and their mis-orientations enter the gamma-ray direction reconstruction in a combined manner. Hence, in general, the average location accuracy for a set of gamma-ray observations depends in a complex way on the individual telescope accuracy and the geometry of the array, but also on the observing conditions, the energy spectrum of the source and the chosen event selection cuts. For the proposed Cherenkov Telescope Array (CTA), a post-calibration point-source location accuracy of 3 seconds of arc is aimed for under favorable observing conditions and for gamma-ray energies exceeding 100 GeV. In this contribution, results of first studies on the location accuracy are presented. These studies are based on a toy Monte Carlo simulation of a typical CTA-South array layout, taking into account the expected trigger rates of the different CTA telescope types and the gamma-ray spectrum of the simulated source. With this simulation code it is possible to study the location accuracy as a function of arbitrary telescope mis-orientations and for typical observing patterns on the sky. Results are presented for various scenarios, including one for which all individual telescopes are randomly mis-oriented within their specified limits. The study provides solid lower limits for the expected source location accuracy of CTA, and can be easily extended to include various other important effects like atmospheric refraction or partial cloud coverage.
APA:
Eschbach, S., Ziegler, A., van Eldik, C., Veh, J., Berge, D., & Gaug, M. (2015). Studies towards an understanding of global array pointing for the cherenkov telescope array. In 34th International Cosmic Ray Conference (ICRC2015) (pp. 1025). Proceedings of Science (PoS).
MLA:
Eschbach, Stefan, et al. "Studies towards an understanding of global array pointing for the cherenkov telescope array." Proceedings of the 34th International Cosmic Ray Conference, ICRC 2015 Proceedings of Science (PoS), 2015. 1025.
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