English

3D Reconstruction of Extensive Air Showers from Fluorescence Data

Astrophysics 2019-08-13 v1
Authors: S. Andringa , M. Pato , M. Pimenta
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Abstract

A new method to reconstruct the 3-dimensional structure of extensive air showers, seen by fluorescence detectors, is proposed. The observation of the shower is done in 2-dimensional pixels, for consecutive time bins. Time corresponds to a third dimension. Assuming that the cosmic ray shower propagates as a plane wave front moving at the speed of light, a complex 3D volume in space can be associated to each measured charge (per pixel and time bin). The 3D description in space allows a simultaneous access to the longitudinal and lateral profiles of each shower. In the case that several eyes observe the same shower, the method gives a straight-forward combination of all the information. This method is in an early phase of development and is not used for the general reconstruction of the Auger data.

Keywords

extensive air showers x-ray imaging and diffraction

Cite

@article{arxiv.0707.4463,
  title  = {3D Reconstruction of Extensive Air Showers from Fluorescence Data},
  author = {S. Andringa and M. Pato and M. Pimenta},
  journal= {arXiv preprint arXiv:0707.4463},
  year   = {2019}
}

Comments

4 pages, 2 figures, presented at ICRC07

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