Beam Maps of the Canadian Hydrogen Intensity Mapping Experiment (CHIME) Measured With a Drone

IF 3.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of Antennas and Propagation Pub Date : 2025-03-24 DOI:10.1109/OJAP.2025.3554457

Will Tyndall;Alex Reda;J. Richard Shaw;Kevin Bandura;Arnab Chakraborty;Mark Halpern;Maile Harris;Emily Kuhn;Joshua Maceachern;Juan Mena-Parra;Laura B. Newburgh;Anna Ordog;Tristan Pinsonneault-Marotte;Anna Rose Polish;Ben Saliwanchik;Pranav Sanghavi;Seth R. Siegel;Audrey Whitmer;Dallas Wulf

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Abstract

We present beam measurements of the CHIME telescope using a radio calibration source deployed on a drone payload. During test flights, the pulsing calibration source and the telescope were synchronized to GPS time, enabling in-situ background subtraction for the full

$N^{2}$

visibility matrix for one CHIME cylindrical reflector. We use the autocorrelation products to estimate the primary beam width and centroid location, and compare these quantities to solar transit measurements and holographic measurements where they overlap on the sky. We find that the drone, solar, and holography data have similar beam parameter evolution across frequency and both spatial coordinates. This paper presents the first drone-based beam measurement of a large cylindrical radio interferometer. Furthermore, the unique analysis and instrumentation described in this paper lays the foundation for near-field measurements of experiments like CHIME.

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无人机测量加拿大氢强度测绘实验（CHIME）的光束图

我们介绍了使用部署在无人机有效载荷上的无线电校准源的CHIME望远镜的光束测量。在测试飞行期间，脉冲校准源和望远镜同步到GPS时间，实现了对一个CHIME圆柱形反射镜的完整可见度矩阵的原位背景减去。我们使用自相关产品来估计主光束宽度和质心位置，并将这些量与太阳凌日测量和全息测量进行比较，它们在天空中重叠。我们发现无人机、太阳和全息数据在频率和空间坐标上具有相似的光束参数演变。本文首次提出了一种基于无人机的大型圆柱形无线电干涉仪波束测量方法。此外，本文所描述的独特的分析和仪器为CHIME等实验的近场测量奠定了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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