Abstract
Abstract The Nasu Radio Interferometer, consisting of eight equally spaced, 20-m diameter fixed spherical antennas, was developed for the purpose of surveying unknown variable radio sources at 1.4 GHz. An asymmetrical Gregorian sub-reflector was designed and installed on each antenna for the purpose of correcting aberrations caused by the spherical reflector. The total collecting area is $2512 \,\mathrm{m}^2$ and the field-of-view of each antenna is $ {0\rlap {.}{}^{\mathrm {\circ }}6} \times {0\rlap {.}{}^{\mathrm {\circ }}6}$. In survey observations a spatial-fast Fourier-transform (FFT)-type multi-beam system will be used. We report on the design of spherical reflectors and a digital back-end system, the basic principle of spatial-FFT image forming, and a result of interferometric observations with an FPGA-based digital correlator.
Highlights
The Nasu Radio Interferometer, located at Nishi-Nasuno, 160 km north of Tokyo, consists of eight spaced, 20-m diameter, fixed spherical antennas
At the Nasu Radio Interferometer, a fixed spherical reflector is used for the main reflector of each antenna element, and asymmetrical Gregorian reflectors are used for the subreflectors
To perform wide-field survey observations, we developed an array consisting of eight 20-m spherical antennas
Summary
The Nasu Radio Interferometer, located at Nishi-Nasuno, 160 km north of Tokyo, consists of eight spaced, 20-m diameter, fixed spherical antennas. Each antenna element is in a fixed position to obtain Nyquist-rate direct images using a real-time spatial fast Fourier-transform (FFT) processor, which was developed at the Waseda FFT interferometer (Daishido et al 1991; Asuma et al 1991). The construction costs is much less than that for the same size Cassegrain antennas.
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