Title :
The Noncoplanar Baselines Effect in Radio Interferometry: The W-Projection Algorithm
Author :
Cornwell, Tim J. ; Golap, Kumar ; Bhatnagar, Sanjay
Author_Institution :
Australia Telescope Nat. Facility, Epping, NSW
Abstract :
We consider a troublesome form of nonisoplanatism in synthesis radio telescopes: noncoplanar baselines. We present a novel interpretation of the noncoplanar baselines effect as being due to differential Fresnel diffraction in the neighborhood of the array antennas. We have developed a new algorithm to deal with this effect. Our new algorithm, which we call ldquoW-projectionrdquo, has markedly superior performance compared to existing algorithms. At roughly equivalent levels of accuracy, W-projection can be up to an order of magnitude faster than the corresponding facet-based algorithms. Furthermore, the precision of result is not tightly coupled to computing time. W-projection has important consequences for the design and operation of the new generation of radio telescopes operating at centimeter and longer wavelengths.
Keywords :
Fresnel diffraction; antenna arrays; astronomical techniques; radiotelescopes; W-projection algorithm; array antennas; differential Fresnel diffraction; facet-based algorithms; noncoplanar baselines effect; nonisoplanatism; radio interferometry; radio telescopes; Australia; Brightness; Diffraction; Frequency synthesizers; Observatories; Radio astronomy; Radio interferometry; Signal processing algorithms; Signal synthesis; Spatial coherence; Algorithms; Fourier transforms; computation time; diffraction; radio interferometry;
Journal_Title :
Selected Topics in Signal Processing, IEEE Journal of
DOI :
10.1109/JSTSP.2008.2005290
