低频射电望远镜嵌入式元件模式的有效存储

IF 1.6 4区地球科学 Q3 ASTRONOMY & ASTROPHYSICS

Radio Science Pub Date : 2024-12-31 DOI:10.1029/2024RS008080

David B. Davidson;Adrian T. Sutinjo

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引用次数: 0

摘要

球面模式的使用为大型阵列（如平方公里阵列(SKA)-Low射电望远镜）提供了一种有效的解决方案，用于存储具有显著角度结构的嵌入元素模式。这些模式需要用于校准组成望远镜的众多台站，每个台站包含数百个元件，并在7:1的带宽上运行。然而，由于在勒让德特殊函数的文献中使用了许多不同的符号，实现变得非常复杂。在电气工程和物理学中使用的不同相量约定使这进一步复杂化。本文综合了大量关于这一主题的现有文献，特别关注这些问题。还讨论了数学实现问题。一些适当的测试使用规范偶极子辐射来验证正确的实施概述。本文最后对单个SKALA4天线和包含256个此类天线的全尺寸SKA-Low原型站进行了测试。节省的存储量大约是三个数量级；这对于一个完整的SKA-Low站来说是非常重要的。支持材料总结了文献中遇到的不同配方和惯例。

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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Efficient storage of embedded element patterns for low frequency radio telescopes

The use of spherical modes offers an efficient solution for storing embedded element patterns with significant angular structure for large scale arrays, such as the Square Kilometer Array (SKA)-Low radio telescope. These patterns are required for calibration of the numerous stations comprising the telescope, each containing several hundred elements, and operating over a 7:1 bandwidth. However, implementation is significantly complicated by the many differences in the notation used in the literature for the Legendre special functions. The differing phasor conventions used in electrical engineering and physics further complicate this. This paper synthesizes much of the existing literature on this topic, paying special attention to these issues. Mathematical implementation issues are also addressed. A number of suitable tests using canonical dipole radiators to verify correct implementation are outlined. The paper concludes with tests on an individual SKALA4 antenna and a full-scale SKA-Low prototype station comprising 256 of these antennas. The storage saving afforded is some three orders of magnitude; this is very significant for a full SKA-Low station. Supporting material summarizes differing formulations and conventions encountered in the literature.

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来源期刊

Radio Science 工程技术-地球化学与地球物理

CiteScore

3.30

自引率

12.50%

发文量

112

审稿时长

1 months

期刊介绍： Radio Science (RDS) publishes original scientific contributions on radio-frequency electromagnetic-propagation and its applications. Contributions covering measurement, modelling, prediction and forecasting techniques pertinent to fields and waves - including antennas, signals and systems, the terrestrial and space environment and radio propagation problems in radio astronomy - are welcome. Contributions may address propagation through, interaction with, and remote sensing of structures, geophysical media, plasmas, and materials, as well as the application of radio frequency electromagnetic techniques to remote sensing of the Earth and other bodies in the solar system.