Primary Beam and Dish Surface Characterization at the Allen Telescope Array by Radio Holography

The Allen Telescope Array (ATA) is a cm-wave interferometer in California, comprising 42 antenna elements with 6-m diameter dishes. We characterize the antenna optical accuracy using two-antenna interferometry and radio holography. The distortion of each telescope relative to the average is small, with RMS differences of 1% of beam peak value. Holography provides images of dish illumination, characterizing as-built mirror surfaces. Maximal distortions across ~ 2 meter lengths appear to result from mounting stresses or solar radiation. Experimental RMS errors are 0.7 mm at night and 3 mm under worst-case solar illumination. For frequencies 4, 10, and 15 GHz, the nighttime values indicate sensitivity losses of 1, 10 and 20%, respectively. ATA's wide-bandwidth receiver permits observations over a continuous range 0.5-11.2 GHz. We probe the antenna optical gain and beam pattern stability as a function of focus position and observation frequency, concluding that ATA can produce high fidelity images over a decade of simultaneous observation frequencies. We quantify solar heating effects on antenna sensitivity and pointing accuracy. We find that during the day, observations >;5 GHz will suffer some sensitivity loss and it may be necessary to make antenna pointing corrections on a 1-2 hourly basis.

[1]  Justin L. Jonas,et al.  MeerKAT—The South African Array With Composite Dishes and Wide-Band Single Pixel Feeds , 2009, Proceedings of the IEEE.

[2]  D. Morris,et al.  Radio-holographic reflector measurement of the 30-m millimeter radio telescope at 22 GHz with a cosmic signal source , 1988 .

[3]  J. C. Bennett,et al.  Microwave holographic metrology of large reflector antennas , 1976 .

[4]  J. Richard Fisher,et al.  Full-sampling array feeds for radio telescopes , 2000, Astronomical Telescopes and Instrumentation.

[5]  J. Ruze Antenna tolerance theory—A review , 1966 .

[6]  David R. DeBoer,et al.  Australian SKA Pathfinder: A High-Dynamic Range Wide-Field of View Survey Telescope , 2009, Proceedings of the IEEE.

[7]  Yahya Rahmat-Samii,et al.  Microwave holography of large reflector antennas--Simulation algorithms , 1985 .

[8]  R. Crutcher,et al.  Magnetic Fields in Dark Cloud Cores: Arecibo OH Zeeman Observations , 2008, 0802.2253.

[9]  M. V. Ivashina,et al.  Off-axis beam performance of Focal Plane Arrays for the Westerbork Synthesis Radio Telescope - Initial results of a prototype system , 2009, 2009 IEEE Antennas and Propagation Society International Symposium.

[10]  Marianna V. Ivashina,et al.  Focal plane arrays for large reflector antennas: first results of a demonstrator project , 2004, SPIE Astronomical Telescopes + Instrumentation.

[11]  A. Greve Strehl number degradation by large-scale systematic surface deviations. , 1980, Applied optics.

[12]  Karen Randall,et al.  The Allen Telescope Array: The First Widefield, Panchromatic, Snapshot Radio Camera for Radio Astronomy and SETI , 2009, Proceedings of the IEEE.

[13]  Nobuharu Ukita,et al.  Design and performance of the ALMA-J prototype antenna , 2004, SPIE Astronomical Telescopes + Instrumentation.

[14]  A. Hopkins,et al.  Science with the Australian Square Kilometre Array Pathfinder , 2007, Publications of the Astronomical Society of Australia.

[15]  K. I. Kellermann,et al.  Preliminary Specifications for the Square Kilometre Array , 2008 .

[16]  A. Hopkins,et al.  Science with ASKAP , 2008, 0810.5187.

[17]  Y. Rahmat-Samii,et al.  DSN microwave antenna holography. Part 2: Data processing and display of high-resolution effective maps , 1986 .

[18]  Karl F. Warnick,et al.  Beamforming and imaging with the BYU/NRAO L-band 19-element phased array feed , 2009, 2009 13th International Symposium on Antenna Technology and Applied Electromagnetics and the Canadian Radio Science Meeting.

[19]  Per-Simon Kildal,et al.  Optimization of 200-800 MHz Eleven feed for use in reflector antennas of GMRT , 2007 .

[20]  Beam squint and Stokes V with off-axis feeds , 2008, 0807.0026.

[21]  J. López-Pérez,et al.  Near-Field Radio Holography of Large Reflector Antennas , 2007, IEEE Antennas and Propagation Magazine.

[22]  P. J. Teuben,et al.  A retrospective view of Miriad , 1995 .

[23]  Y. Rahmat-Samii,et al.  Surface diagnosis of large reflector antennas using microwave holographic metrology: An iterative approach , 1984 .

[24]  Todd R. Hunter,et al.  The Green Bank Telescope , 2009, Proceedings of the IEEE.

[25]  R. Hills,et al.  Out-of-focus holography at the Green Bank Telescope , 2006, astro-ph/0612249.

[26]  Martin Ryle,et al.  A rapid method for measuring the figure of a radio telescope reflector , 1977 .