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Article Dans Une Revue Astronomy and Astrophysics - A&A Année : 2023

Towards optimal phased-array tile configurations for large new-generation radio telescopes and their application to NenuFAR

Résumé

Context. Recent instrumental developments have aimed to build large digital radio telescopes made of ∼100k antennas. The massive data rate required to digitise all elements drives the instrumental design towards the hierarchical distribution of elements by groups of O(10) that form small analogue phased arrays that lower the computational burden by one to two orders of magnitude. Aims. We study possible optimal layouts for a tile composed of five to 22 identical elements. We examine the impact of the tile layout on the overall response of an instrument. Methods. We used two optimisation algorithms to find optimal arrangements of elements in the tile using: (i) a deterministic method (Kogan) based on beam pattern derivative properties; and (ii) a stochastic method (modified simulated annealing) to find global optima minimising the side-lobe level while increasing the field of view (FOV) of the tile, a required condition for all-sky surveys. Results. We find that optimal tile arrangements are compact circular arrays that present some degree of circular symmetry while not being superimposable to any rotated version of themselves. The 'optimal' element number is found to be 16 or 17 antennas per tile. These could provide a maximum side-lobe level (SLL) of-33 dB (-24 dB) used with dipole (isotropic) elements. Due to constraints related to the analogue phasing implementation, we propose an approaching solution but with a regular arrangement on an equilateral lattice with 19 elements. By introducing random relative rotations between tiles, we compared and found that the 19-element equilateral tile results in better grating lobe mitigation and a larger FOV than that of rectangular tiles of 16 antennas. Conclusions. Optimal tile arrangements and their regular versions are useful to maximise the sensitivity of new-generation hierarchical radio telescopes. The proposed solution was implemented in NenuFAR, a pathfinder of SKA-LOW at the Nançay Radio Observatory.
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hal-03988113 , version 1 (24-02-2023)

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J N Girard, P. Zarka. Towards optimal phased-array tile configurations for large new-generation radio telescopes and their application to NenuFAR. Astronomy and Astrophysics - A&A, In press, ⟨10.1051/0004-6361/202243861⟩. ⟨hal-03988113⟩
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