Expected performance of interferometric air-shower measurements with radio antennas

Abstract

Interferometric measurements of the radio emission of extensive air showers allow reconstructing cosmic-ray properties. A recent simulation study with an idealised detector promised measurements of the depth of the shower maximum Xmax with an accuracy better than 10\,g\,cm-2. In this contribution, we evaluate the potential of interferometric Xmax measurements of (simulated) inclined air showers with realistically dimensioned, sparse antenna arrays. We account for imperfect time synchronisation between individual antennas and study its inter-dependency with the antenna density in detail. We find a strong correlation between the antenna multiplicity (per event) and the maximum acceptable inaccuracy in the time synchronisation of individual antennas. From this result, prerequisites for the design of antenna arrays for the application of interferometric measurements can be concluded. For data recorded with a time synchronisation accurate to 1\,ns within the commonly used frequency band of 30\,MHz to 80\,MHz, an antenna multiplicity of 50 is needed to achieve an Xmax reconstruction with an accuracy of 20\,g\,cm-2. This multiplicity is achieved measuring inclined air showers with zenith angles θ ≥ 77.5 with 1\,km spaced antenna arrays, while vertical air showers with zenith angles θ ≤ 40 require an antenna spacing below 100\,m. Furthermore, we find no improvement in Xmax resolution applying the interferometric reconstruction to measurements at higher frequencies, i.e., up to several hundred MHz.

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