The Next Generation Arecibo Telescope: A preliminary study

TL;DR

The paper explores the feasibility of the Next Generation Arecibo Telescope, proposing a cost-effective design with a 130-175 m diameter array that outperforms existing facilities in key scientific applications.

Contribution

It introduces a novel phased array design for NGAT, demonstrating a feasible, cost-effective structure with superior performance compared to current radio telescopes.

Findings

A 130-175 m diameter array is feasible and cost-effective.

The NGAT-130 surpasses existing radar and single dish facilities.

The proposed structure weighs 53% of the Green Bank Telescope.

Abstract

The Next Generation Arecibo Telescope (NGAT) was a concept presented in a white paper Roshi et al. (2021) developed by members of the Arecibo staff and user community immediately after the collapse of the 305 m legacy telescope. A phased array of small parabolic antennas placed on a tiltable plate-like structure forms the basis of the NGAT concept. The phased array would function both as a transmitter and as a receiver. This envisioned state of the art instrument would offer capabilities for three research fields, viz. radio astronomy, planetary and space & atmospheric sciences. The proposed structure could be a single plate or a set of closely spaced segments, and in either case it would have an equivalent collecting area of a parabolic dish of size 300 m. In this study we investigate the feasibility of realizing the structure. Our analysis shows that, although a single structure ~300 m in size is achievable, a scientifically competitive instrument 130 to 175 m in size can be developed in a more cost effective manner. We then present an antenna configuration consisting of one hundred and two 13 m diameter dishes. The diameter of an equivalent collecting area single dish would be ~130 m, and the size of the structure would be ~146 m. The weight of the structure is estimated to be 4300 tons which would be 53% of the weight of the Green Bank Telescope. We refer to this configuration as NGAT-130. We present the performance of the NGAT-130 and show that it surpasses all other radar and single dish facilities. Finally, we briefly discuss its competitiveness for radio astronomy, planetary and space & atmospheric science applications.