Development of imaging riometers

Development of imaging riometers

An 8 by 8 beam imaging riometer with a view field of 180km by 180km, spatial resolution of 20km, and time resolution of 1 to 4s has been developed in Japan. System design is described with some stress on the difference from the first imaging riometer system, IRIS, developed by the University of Mary...

Full description

Bibliographic Details
Main Authors: Hisao Yamagishi, Masanori Nishino, Mitsugi Sato, Yasuo Kato, Masayoshi Kojima, Natsuo Sato, Takashi Kikuchi
Format: Article
Language:English
Published: National Institute of Polar Research 1992-07-01
Series:Antarctic Record
Online Access:http://doi.org/10.15094/00008767
id doaj-50a1ce4baaab4369bd046f0656ee6ded
record_format Article
spelling doaj-50a1ce4baaab4369bd046f0656ee6ded2020-11-24T22:15:24ZengNational Institute of Polar ResearchAntarctic Record0085-72892432-079X1992-07-0136222725010.15094/00008767Development of imaging riometersHisao Yamagishi0Masanori Nishino1Mitsugi Sato2Yasuo Kato3Masayoshi Kojima4Natsuo Sato5Takashi Kikuchi6National Institute of Polar ResearchSolar-Terrestrial Environment Laboratory, Nagoya UniversitySolar-Terrestrial Environment Laboratory, Nagoya UniversitySolar-Terrestrial Environment Laboratory, Nagoya UniversitySolar-Terrestrial Environment Laboratory, Nagoya UniversityNational Institute of Polar ResearchCommunications Research LaboratoryAn 8 by 8 beam imaging riometer with a view field of 180km by 180km, spatial resolution of 20km, and time resolution of 1 to 4s has been developed in Japan. System design is described with some stress on the difference from the first imaging riometer system, IRIS, developed by the University of Maryland. This system has a unique capability of displaying absorption image on the real time basis with the aid of QL software, which is summarized in a separate paper. The performance of the array antenna system is confirmed by simulation calculations using the galactic radio noise map at 30MHz obtained by CANE (Aust. J. Phys., 31,561,1978). Procedures for absorption image forming are also described. Some of the absorption images obtained by this system are compared with optical auroral images observed at the same location at the same time. It is found that the both images show a good similarity for morning-side auroras. It is, therefore, concluded that the imaging riometer is a very useful tool for monitoring the auroral form when the optical aurora observation is difficult by the sunlit, or weather condition.http://doi.org/10.15094/00008767
collection DOAJ
language English
format Article
sources DOAJ
author Hisao Yamagishi
Masanori Nishino
Mitsugi Sato
Yasuo Kato
Masayoshi Kojima
Natsuo Sato
Takashi Kikuchi
spellingShingle Hisao Yamagishi
Masanori Nishino
Mitsugi Sato
Yasuo Kato
Masayoshi Kojima
Natsuo Sato
Takashi Kikuchi
Development of imaging riometers
Antarctic Record
author_facet Hisao Yamagishi
Masanori Nishino
Mitsugi Sato
Yasuo Kato
Masayoshi Kojima
Natsuo Sato
Takashi Kikuchi
author_sort Hisao Yamagishi
title Development of imaging riometers
title_short Development of imaging riometers
title_full Development of imaging riometers
title_fullStr Development of imaging riometers
title_full_unstemmed Development of imaging riometers
title_sort development of imaging riometers
publisher National Institute of Polar Research
series Antarctic Record
issn 0085-7289
2432-079X
publishDate 1992-07-01
description An 8 by 8 beam imaging riometer with a view field of 180km by 180km, spatial resolution of 20km, and time resolution of 1 to 4s has been developed in Japan. System design is described with some stress on the difference from the first imaging riometer system, IRIS, developed by the University of Maryland. This system has a unique capability of displaying absorption image on the real time basis with the aid of QL software, which is summarized in a separate paper. The performance of the array antenna system is confirmed by simulation calculations using the galactic radio noise map at 30MHz obtained by CANE (Aust. J. Phys., 31,561,1978). Procedures for absorption image forming are also described. Some of the absorption images obtained by this system are compared with optical auroral images observed at the same location at the same time. It is found that the both images show a good similarity for morning-side auroras. It is, therefore, concluded that the imaging riometer is a very useful tool for monitoring the auroral form when the optical aurora observation is difficult by the sunlit, or weather condition.
url http://doi.org/10.15094/00008767
work_keys_str_mv AT hisaoyamagishi developmentofimagingriometers
AT masanorinishino developmentofimagingriometers
AT mitsugisato developmentofimagingriometers
AT yasuokato developmentofimagingriometers
AT masayoshikojima developmentofimagingriometers
AT natsuosato developmentofimagingriometers
AT takashikikuchi developmentofimagingriometers
_version_ 1725794505851928576

Similar Items