Asymmetric sub-reflectors for spherical antennas and interferometric observations with an FPGA-based correlator

Hiroshi Takeuchi; Masaya Kuniyoshi; Tsuneaki Daishido; Kuniyuki Asuma; Nobuo Matsumura; Kazuhiro Takefuji; Kotaro Niinuma; Hajime Ichikawa; Riki Okubo; Akihiro Sawano; Naoya Yoshimura; Fumiyuki Fujii; Keiju Mizuno; Yukinori Akamine

Asymmetric sub-reflectors for spherical antennas and interferometric observations with an FPGA-based correlator

Hiroshi Takeuchi^*, Masaya Kuniyoshi, Tsuneaki Daishido, Kuniyuki Asuma, Nobuo Matsumura, Kazuhiro Takefuji, Kotaro Niinuma, Hajime Ichikawa, Riki Okubo, Akihiro Sawano, Naoya Yoshimura, Fumiyuki Fujii, Keiju Mizuno, Yukinori Akamine

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

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 1.4GHz. 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 m² and the field-of-view of each antenna is 0.°6 × 0.°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.

Original language	English
Pages (from-to)	815-820
Number of pages	6
Journal	Publications of the Astronomical Society of Japan
Volume	57
Issue number	5
Publication status	Published - 2005

Keywords

Instrumentation: interferometers
Radio continuum: general
Techniques: interferometric

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Cite this

Takeuchi, H., Kuniyoshi, M., Daishido, T., Asuma, K., Matsumura, N., Takefuji, K., Niinuma, K., Ichikawa, H., Okubo, R., Sawano, A., Yoshimura, N., Fujii, F., Mizuno, K., & Akamine, Y. (2005). Asymmetric sub-reflectors for spherical antennas and interferometric observations with an FPGA-based correlator. Publications of the Astronomical Society of Japan, 57(5), 815-820.

Takeuchi, H, Kuniyoshi, M, Daishido, T, Asuma, K, Matsumura, N, Takefuji, K, Niinuma, K, Ichikawa, H, Okubo, R, Sawano, A, Yoshimura, N, Fujii, F, Mizuno, K & Akamine, Y 2005, 'Asymmetric sub-reflectors for spherical antennas and interferometric observations with an FPGA-based correlator', Publications of the Astronomical Society of Japan, vol. 57, no. 5, pp. 815-820.

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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 1.4GHz. 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 m2 and the field-of-view of each antenna is 0.°6 × 0.°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.",

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AU - Takeuchi, Hiroshi

AU - Kuniyoshi, Masaya

AU - Daishido, Tsuneaki

AU - Asuma, Kuniyuki

AU - Matsumura, Nobuo

AU - Takefuji, Kazuhiro

AU - Niinuma, Kotaro

AU - Ichikawa, Hajime

AU - Okubo, Riki

AU - Sawano, Akihiro

AU - Yoshimura, Naoya

AU - Fujii, Fumiyuki

AU - Mizuno, Keiju

AU - Akamine, Yukinori

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AB - 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 1.4GHz. 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 m2 and the field-of-view of each antenna is 0.°6 × 0.°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.

KW - Instrumentation: interferometers

KW - Radio continuum: general

KW - Techniques: interferometric

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Asymmetric sub-reflectors for spherical antennas and interferometric observations with an FPGA-based correlator

Abstract

Keywords

ASJC Scopus subject areas

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