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引用次数: 75
摘要
目前的综合射电望远镜由于视场的限制,测量能力有限。采用相控阵馈源(PAF)是在天空中形成多波束的一种新方法。在f/D比较小的望远镜中,这是在天空中形成紧密排列的光束的唯一方法。该技术的另一个优点是,PAF可以在灵敏度、副瓣和偏振特性方面优化二次光束。APERTIF(“APERture Tile In Focus”)是一种PAF系统,正在为Westerbork合成射电望远镜(WSRT)开发,以将其调查速度提高20倍。本文介绍了APERTIF的系统概述和测量结果,证明了paf在实践中的独特能力:宽视场(扫描范围),低系统温度,出色的照明效率,合成成像和显著减少反射器-馈电相互作用。
APERTIF: Phased array feeds for the westerbork synthesis radio telescope
Present day synthesis radio telescopes have limited survey capabilities because of field of view restrictions. A novel method to form multiple beams on the sky is to employ a phased array feed (PAF). In telescopes with small f/D ratios, it is the only way to form closely packed beams on the sky. An additional advantage of this technique is that a PAF allows optimizing the secondary beam in terms of sensitivity, sidelobes and polarization characteristics. APERTIF (“APERture Tile In Focus”) is a PAF system that is being developed for the Westerbork Synthesis Radio Telescope (WSRT) to increase its survey speed with a factor 20. This paper presents a system overview of APERTIF and measurement results that demonstrate the unique capabilities of PAFs in practice: Wide field of view (scan range), low system temperature, excellent illumination efficiency, synthesis imaging and a significant reduction of the reflector — feed interaction.
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