Title :
Antenna array characterization via radio interferometry observation of astronomical sources
Author :
Colegate, T.M. ; Sutinjo, A.T. ; Hall, P.J. ; Padhi, S.K. ; Wayth, R.B. ; bij de Vaate, Jan Geralt ; Crosse, B. ; Emrich, D. ; Faulkner, A.J. ; Hurley-Walker, N. ; de Lera Acedo, E. ; Juswardy, B. ; Razavi-Ghods, N. ; Tingay, S.J. ; Williams, Albert
Author_Institution :
Int. Centre for Radio Astron. Res. (ICRAR), Curtin Univ., Perth, WA, Australia
Abstract :
We present an in-situ antenna characterization method and results for a “low-frequency” radio astronomy engineering prototype array, characterized over the 75-300 MHz frequency range. The presence of multiple cosmic radio sources, particularly the dominant Galactic noise, makes in-situ characterization at these frequencies challenging; however, it will be shown that high quality measurement is possible via radio interferometry techniques. This method is well-known in the radio astronomy community but seems less so in antenna measurement and wireless communications communities, although the measurement challenges involving multiple undesired sources in the antenna field-of-view bear some similarities. We discuss this approach and our results with the expectation that this principle may find greater application in related fields.
Keywords :
antenna arrays; astronomical techniques; radiosources (astronomical); radiotelescopes; radiowave interferometry; Galactic noise; antenna array characterization; antenna field-of-view; antenna measurement; astronomical sources; frequency 75 MHz to 300 MHz; high quality measurement; in-situ antenna characterization method; low-frequency radio astronomy engineering prototype array; measurement challenges; multiple cosmic radio sources; radio astronomy community; radio interferometry observation; radio interferometry techniques; wireless communication communities; Antenna arrays; Antenna measurements; Arrays; Extraterrestrial measurements; Frequency measurement; Noise; Radio astronomy;
Conference_Titel :
Antenna Measurements & Applications (CAMA), 2014 IEEE Conference on
Conference_Location :
Antibes Juan-les-Pins
DOI :
10.1109/CAMA.2014.7003436
