History of the Super Dual Auroral Radar Network (SuperDARN)-I: pre-SuperDARN developments in high frequency radar technology for ionospheric research and selected scientific results

IF 0.5 4区 哲学 Q4 GEOSCIENCES, MULTIDISCIPLINARY
R. Greenwald
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引用次数: 6

Abstract

Abstract. Part I of this history describes the motivations for developing radars in the high frequency (HF) band to study plasma density irregularities in the F region of the auroral zone and polar cap ionospheres. French and Swedish scientists were the first to use HF frequencies to study the Doppler velocities of HF radar backscatter from F-region plasma density irregularities over northern Sweden. These observations encouraged the author of this paper to pursue similar measurements over northeastern Alaska, and this eventually led to the construction of a large HF-phased-array radar at Goose Bay, Labrador, Canada. This radar utilized frequencies from 8–20 MHz and could be electronically steered over 16 beam directions, covering a 52 ∘ azimuth sector. Subsequently, similar radars were constructed at Schefferville, Quebec, and Halley Station, Antarctica. Observations with these radars showed that F-region backscatter often exhibited Doppler velocities that were significantly above and below the ion-acoustic velocity. This distinguished HF Doppler measurements from prior measurements of E-region irregularities that were obtained with radars operating at very high frequency (VHF) and ultra-high frequency (UHF). Results obtained with these early HF radars are also presented. They include comparisons of Doppler velocities observed with HF radars and incoherent scatter radars, comparisons of plasma convection patterns observed simultaneously in conjugate hemispheres, and the response of these patterns to changes in the interplanetary magnetic field, transient velocity enhancements in the dayside cusp, preferred frequencies for geomagnetic pulsations, and observations of medium-scale atmospheric gravity waves with HF radars.
超级双极光雷达网(SuperDARN)的历史-I:用于电离层研究的高频雷达技术和选定的科学结果在超级双极光探测网之前的发展
摘要这段历史的第一部分描述了在高频(HF)波段开发雷达的动机,以研究极光带F区和极冠电离层的等离子体密度不规则性。法国和瑞典科学家是第一个使用高频频率研究瑞典北部F区等离子体密度不规则性高频雷达反向散射的多普勒速度的人。这些观测结果鼓励了本文作者在阿拉斯加东北部进行类似的测量,最终在加拿大拉布拉多的鹅湾建造了一个大型HF相控阵雷达。该雷达利用了8-20的频率 MHz,并且可以在16个波束方向上进行电子操纵,覆盖52∘方位扇区。随后,在魁北克的谢弗维尔和南极洲的哈雷站建造了类似的雷达。这些雷达的观测结果表明,F区后向散射通常表现出明显高于和低于离子声速的多普勒速度。这将HF多普勒测量与先前在甚高频(VHF)和超高频(UHF)下工作的雷达获得的E区不规则性的测量区分开来。还介绍了用这些早期高频雷达获得的结果。它们包括HF雷达和非相干散射雷达观测到的多普勒速度的比较,共轭半球同时观测到的等离子体对流模式的比较,以及这些模式对行星际磁场变化的响应,白天尖点的瞬态速度增强,地磁脉动的首选频率,以及用高频雷达观测中等规模的大气重力波。
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来源期刊
History of Geo- and Space Sciences
History of Geo- and Space Sciences GEOSCIENCES, MULTIDISCIPLINARY-HISTORY & PHILOSOPHY OF SCIENCE
CiteScore
1.50
自引率
33.30%
发文量
10
审稿时长
50 weeks
期刊介绍: The scope of History of Geo- and Space Sciences (HGSS) is to document historical facts and knowledge and to improve awareness of the history of geoscience. The knowledge of the development of geosciences and their experimental methods and theories in the past can improve our current understanding and may stimulate current research. It is encouraging for young scientists to read biographical material of historical figures in their research area. It is important as well to learn that history of science is an integrated part of the ongoing research in their research area. Another important aim of the journal is the association of historical retrospective and current research.
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