1.42 GHz频率下小型射电望远镜天线参数仿真

Uday E Jallod, H. Mahdi, Kamal M. Abood
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引用次数: 1

摘要

本文对小型射电望远镜天线参数的理论研究进行了综述。基本参数包括天线波束宽度、天线增益、孔径效率和天线温度。这些参数对天文射电观测有至关重要的影响,因此应该仔细研究。为了评估小型射电望远镜观测特定频率点源的能力和效率,对天线参数进行了仿真。对均匀圆孔径天线在不同半径下进行了二维数值模拟。选择的小直径值在(1-10)m之间变化。由于这种望远镜在世界上很常见,因此本研究的重点是直径为3 m的小型射电望远镜。仿真结果表明,3米天线的功率方向图具有约5度的半功率波束宽度。此外,天线的最大峰值温度估计超过3000 K。这些结果与用小型射电望远镜观测到的1.42 GHz频率的中性氢谱线相吻合。
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Simulation of Small Radio Telescope Antenna Parameters at Frequency of 1.42 GHz
The paper presents an overview of theoretical aspects of small radio telescope antenna parameters. The basic parameters include antenna beamwidth, antenna gain, aperture efficiency, and antenna temperature. These parameters should be carefully studied since they have vital effects on astronomical radio observations. The simulations of antenna parameters were carried out to assess the capability and the efficiency of small radio telescopes to observe a point source at a specific frequency. Two-dimensional numerical simulations of a uniform circular aperture antenna are implemented at different radii. The small diameter values are chosen to be varied between (1-10) m. This study focuses on a small radio telescope with a diameter of 3 m since this telescope is very common in the world. The simulated results of this study illustrated that the power pattern of a 3 m antenna has a half-power beamwidth of approximately 5 degrees. Also, the maximum peak antenna temperature is estimated to be more than 3000 K. All of these results were in good agreement with observations of the neutral hydrogen spectral line at the frequency of 1.42 GHz using a small radio telescope.
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