Abstract
Abstract Aperture synthesis arrays are commonly used in radio astronomy to take images of radio point sources, with the planned Square Kilometre Array (SKA) being the most common example. One approach to enhancing the quality of the images is to optimize an antenna array configuration in a possible SKA implementation. An ideal arrangement must ensure optimal configurations to capture a clear image by either decreasing the sidelobe level (SLL) in the l–m domain or increasing the sampled data in the spatial-frequency domain. In this paper a novel configuration is considered to optimize the array by considering all possible observation situations through the positions of the antenna array elements via a mathematical model that we call geometrical method (GM). To demonstrate its efficiency, the technique is applied to developing an optimal configuration for the elements of the Giant Metrewave Radio Telescope (GMRT). The effect of these changes, particularly in the forms of circular and spiral arrangements, is discussed. It is found that a spiral configuration results in fewer overlapping samples than the number of antennas placed along three arms of the GMRT with fewer than 11% and 27% overlapping samples in the snapshot and 6 hr tracking observations, respectively. Finally, the spiral configuration reduces the first SLL from −13.01 dB, using the arms of the current GMRT configuration, to −15.64 dB.
Highlights
One of the main activities in astronomy is measuring the angular positions of stars and other cosmic objects with adequate accuracy
This paper reports on the results of research conducted for the Giant Metrewave Radio Telescope (GMRT) and can be used for the upcoming Square Kilometre Array (SKA) telescope and precursors on the shapes of interferometers constructed with a design based on either fixed layout, spiral or mounted on a rail track
To compare all configurations with a high degree of precision, the configurations were simulated in astronomical image processing system (AIPS), using a Gaussian source, and sidelobe level (SLL) were calculated
Summary
One of the main activities in astronomy is measuring the angular positions of stars and other cosmic objects with adequate accuracy. This leads to the development of large and sensitive telescopes to detect small changes in celestial positions, which are an important step in the formation of the distance scale of the universe. The largest and most sensitive multi-radio telescope array will be the Square Kilometre Array (SKA) in the decade. It involves the efforts of more than 10 countries.
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