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1. EISCAT_3D and Japan's Activities

Author

Yasunobu, Ogawa, Hiroshi, Miyaoka, Satonori, Nozawa, Taishi, Hashinmoto, Shin-ichiro, Oyama, Koji, Nishimura, Takuo, Tsuda, Hitoshi, Fujiwara, Masaki, Tsutsumi, Yoshimasa, Tanaka, Takanori, Nishiyama, Mizuki, Fukizawa, Takuji, Nakamura, Ryoichi, Fujii, and Heinselman, Craig

Abstract

The 13th Symposium on Polar Science/Ordinary sessions [OS] Space and upper atmospheric sciences, Wed. 16 Nov.

Published
2022

2. Activity report of the 40th Japanese Antarctic Research Expedition wintering party in 1999-2000

Author

Hiroshi Miyaoka

Subjects
Geography (General), G1-922
Abstract

The 40th Japanese Antarctic Research Expedition (JARE-40) wintering party, with 40 members, has successfully conducted the third-year project of the Vth five-year JARE program, over the period from 1st February 1999 to 31st January 2000, at Syowa Station, Antarctica.The framework of the JARE-40 wintering party program was the same as those of JARE-38 and JARE-39, comprising three routine observation programs and project/monitoring research observation programs in upper atmospheric physics, atmospheric sciences and glaciology, geophysics, and biology. In addition to many continuing projects, several new observations were started: 50MHz/112MHz aurora radars and a VLF wave receiver as part of the ionosphere program, aerosol sonde observations of Polar Stratospheric Clouds (PSCs) as part of the meteorological program, HF/MF radars as part of the upper atmospheric physics program, frequent VLBI experiments as part of the geophysics program, and biological field surveys (including two dives), including monitoring of the undersea behavior of Weddell seals using bio-logging devices.In terms of inland field surveys, two parties were organized: fuel transportation and glaciological/meteorological observations along the route to Mizuho Station in August-September and to Dome Fuji/Yamato air-basecamp in November-January. These surveys involved snow sampling, precise GPS positioning, and sub-glacial surveys using three types of ice radar.Logistical activities, conducted in cooperation with the JARE-40 summer party, included the construction of a second summer lodge, the startup of a second 300 kVA generator and co-generator system, the development of a sewage plant, solar power panels, an access road to the A-heliport, and the cleanup of disused buildings. During the wintering period, efforts were directed towards the maintenance of all facilities at Syowa Station, safety management, and practical support for field operations.The Antarctic Environmental Protection Law came into force in January 1998. Since this time, the outdoor burning of all packaging materials has been restricted at Syowa Station; consequently, we sent a large amount of waste (136t, including 98t of large-size material) back to Japan onboard the RV Shirase.

Published
2011
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3. Activities of the summer season of the 48th Japanese Antarctic Research Expedition in 2006-2007

Author

Tsuneo Odate, Takashi Nomotobori, and Hiroshi Miyaoka

Subjects
Geography (General), G1-922
Abstract

The activities in the 2006-2007 austral summer of the 48th Japanese Antarctic Research Expedition (JARE-48) are reported. JARE-48 consisted of 62 personnel including 27 summer personnel and 35 wintering personnel. In addition, several observers joined to the voyage of Icebreaker Shirase (four Japanese), operation at Dome Fuji Station (two foreigners), Japan-Germany Collaborative Airborne Survey (eleven foreigners), and terrestrial observation around Syowa Station (three foreigners). Icebreaker Shirase arrived at the ice edge on 16 December 2006. She anchored at Syowa Station on 23 December and unloaded ca. 1000 t of cargo and fuel by mid-January 2007. Because weather in this season was extremely good, transportation and construction works at Syowa Station were going well. Biological, geodetic and geological field investigations and geophysical field station observations were carried out in the Ltzow-Holm Bay region. The JARE-48 summer party and JARE-47 wintering party on board Shirase left Syowa Station on 16 February. On the return voyage, oceanographic and marine biological observations, geomagnetism and other studies were carried out. All personnel disembarked at the Port of Sydney on 21 March. A 7-person special team (five summer and two wintering personnel) for the deep ice-drilling project took air transportation from Cape Town via Novolazarevskaya Station. The team met the traverse party of JARE-47 wintering team at ARP2 point on 3 December. They carried out ice drilling to a depth of 3025.22 m at Dome Fuji Station. The summer members of the drilling team arrived in Tokyo on 20 February. One summer personnel, who conducted the Japan-Germany Collaborative Airborne Survey, arrived to Neumayer Station on 8 December. He conducted the airbone survey in the vicinity of Neumayer Station, and moved to S17 on 6 January. The airbone survey was conducted above Ltzow-Holm Bay region. He arrived to Japan on 8 February.

Published
2008
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5. Polarization Electric Field Inside Auroral Patches: Simultaneous Experiment of EISCAT Radars and KAIRA

Author

Yasunobu Ogawa, Hiroshi Miyaoka, Toru Takahashi, Keisuke Hosokawa, Anita Aikio, Antti Kero, and Ilkka Virtanen

Subjects
Physics, 010504 meteorology & atmospheric sciences, biology, business.industry, auroral patch, Kaira, aurora, biology.organism_classification, Polarization (waves), 01 natural sciences, EISCAT, polarization electric field, Geophysics, Optics, KAIRA, Space and Planetary Science, Electric field, 0103 physical sciences, business, 010303 astronomy & astrophysics, electric field enhancement, 0105 earth and related environmental sciences
Published
2019
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6. Solar ultraviolet irradiance in the ozone hole region in Antarctica

Author

Shu Takeshita, Hiroshi Miyaoka, Masaki Ejiri, and Masako Sasaki

Subjects
Geography (General), G1-922
Abstract

To analyze characteristics of solar ultraviolet irradiance in the ozone hole region, solar ultraviolet-B (UV-B : 280-315nm) and ultraviolet-A (UV-A : 315-400nm) irradiance at noon were measured from October 4,1999 to January 31,2000 at Syowa Station in Antarctica (69°00′S, 39°35′E). UV-B irradiance measured at Syowa was compared with UV-B irradiance measured at Tokai University, in Hiratsuka, Kanagawa, Japan (35°21′N, 139°16′E). Maximum irradiance of the UV-B at Syowa was measured early in December 1999. It is equal to the maximum irradiance of UV-B measured in the middle of June 1999 and/or early in September 1999 at Hiratsuka. UV-B and UV-A irradiance at Syowa showed less scatter than that at Hiratsuka. This implies that the difference of scatter between irradiance at Syowa and at Hiratsuka may be attributed to the cloud types which appeared over both observation sites, providing different shielding effects of cloud types for UV irradiance. By eliminating the cloud effect by dividing UV-B irradiance by UV-A irradiance (UV-B/UV-A), a high negative correlation was obtained between UV-B/UV-A and the effective ozone amount. By applying this correlation, total ozone amount can be estimated by use of the values of UV-B/UV-A and air mass

Published
2001
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7. Energetic Electron Precipitation Occurrence Rates Determined Using the Syowa East SuperDARN Radar

Author

Hiroshi Miyaoka, Erkka Heino, Akira Sessai Yukimatu, Emma Bland, and Noora Partamies

Subjects
Backscatter, Attenuation, Super Dual Auroral Radar Network, Electron precipitation, FOS: Physical sciences, VDP::Matematikk og Naturvitenskap: 400, Atmospheric sciences, Space Physics (physics.space-ph), law.invention, Geophysics, Physics - Space Physics, Space and Planetary Science, law, Local time, Environmental science, Radar, Ionosphere, Morning, VDP::Mathematics and natural science: 400
Abstract

We demonstrate that the Super Dual Auroral Radar Network (SuperDARN) radar at Syowa station, Antarctica, can be used to detect high frequency radio wave attenuation in the D region ionosphere during energetic electron precipitation (EEP) events. EEP‐related attenuation is identified in the radar data as a sudden reduction in the backscatter power and background noise parameters. We focus initially on EEP associated with pulsating aurora and use images from a colocated all‐sky camera as a validation data set for the radar‐based EEP event detection method. Our results show that high‐frequency attenuation that commences during periods of optical pulsating aurora typically continues for 2–4 hr after the camera stops imaging at dawn. We then use the radar data to determine EEP occurrence rates as a function of magnetic local time (MLT) using a database of 555 events detected in 2011. EEP occurrence rates are highest in the early morning sector and lowest at around 15:00–18:00 MLT. The postmidnight and morning sector occurrence rates exhibit significant seasonal variations, reaching approximately 50% in the winter and 15% in the summer, whereas no seasonal variations were observed in other MLT sectors. The mean event lifetime determined from the radar data was 2.25 hr, and 10% of events had lifetimes exceeding 5 hr.

Published
2021
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8. Panel discussion on the future prospect of Arctic research

Author

Hiroyuki, Enomoto, Hiroshi, Miyaoka, Teruo, Aoki, Takashi, Yamanouchi, Hajime, Yamaguchi, Ketaro, Nishimoto, and Hajo, Eicken

Abstract

The 11th Symposium on Polar Science/Special session: [S] Accelerating Arctic research: Recent progress and future prospect of Arctic research, Tue. 1 Dec.

Published
2020

9. A ground-based instrument suite for integrated high-time resolution measurements of pulsating aurora with Arase

Author

Tero Raita, Boris Kozelov, Y. Kawamura, Esa Turunen, Kazuo Shiokawa, Donald Hampton, Shoya Matsuda, Ryuho Kataoka, Yasunobu Ogawa, Hiroshi Miyaoka, Keisuke Hosokawa, A. G. Demekhov, Mariko Teramoto, Chris Hall, Iku Shinohara, Yusuke Ebihara, Satonori Nozawa, Shin-ichiro Oyama, Ryoichi Fujii, Satoshi Kurita, Yoshiya Kasahara, Urban Brandstrom, Tetsuya Kawabata, Yoshimasa Tanaka, Magnar Gullikstad Johnsen, and Yoshizumi Miyoshi

Subjects
Astrophysics::High Energy Astrophysical Phenomena, Suite, Physics::Space Physics, Time resolution, Satellite, Geology, Remote sensing
Abstract

A specialized ground-based system has been developed for simultaneous observations of pulsating aurora (PsA) and related magnetospheric phenomena with the Arase satellite. The instrument suite is c...

Published
2020
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10. Long-term variations and trends in the polar E-region

Author

Chris Hall, Hiroshi Miyaoka, U. P. Løvhaug, Michael T. Rietveld, C. La Hoz, Yasunobu Ogawa, and Lindis Merete Bjoland

Subjects
Atmospheric Science, 010504 meteorology & atmospheric sciences, Solar zenith angle, Noon, Atmospheric sciences, 01 natural sciences, Term (time), Solar cycle, Ion, Geophysics, Altitude, Space and Planetary Science, Physics::Space Physics, 0103 physical sciences, Polar, Environmental science, Astrophysics::Earth and Planetary Astrophysics, Ionosphere, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences
Abstract

As the EISCAT UHF radar system in Northern Scandinavia started its operations in the early 1980s, the collected data cover about three solar cycles. These long time-series provide us the opportunity to study long-term variations and trends of ionospheric parameters in the high latitude region. In the present study we have used the EISCAT Tromso UHF data to investigate variations of the Hall conductivity and ion temperatures in the E-region around noon. Both the ion temperature and the peak altitude of the Hall conductivity are confirmed to depend strongly on solar zenith angle. However, the dependence on solar activity seems to be weak. In order to search for trends in these parameters, the ion temperature and peak altitude of the Hall conductivity data were adjusted for their seasonal and solar cycle dependence. A very weak descent (∼0.2 km/ decade) was seen in the peak altitude of the Hall conductivity. The ion temperature at 110 km shows a cooling trend (∼10 K/ decade). However, other parameters than solar zenith angle and solar activity seem to affect the ion temperature at this altitude, and a better understanding of these parameters is necessary to derive a conclusive trend. In this paper, we discuss what may cause the characteristics of the variations in the electric conductivities and ion temperatures in the high latitude region.

Published
2017
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11. Variations of cosmic noise absorption (CNA) by energetic electron precipitation (EEP) and changes of the auroral morphology

Author

Taishiro, Miyamoto, Shin-ichiro, Oyama, Yasunobu, Ogawa, Keisuke, Hosokawa, Satoshi, Kurita, Yoshizumi, Miyoshi, Hiroshi, Miyaoka, Ryuho, Kataoka, and Tero, Raita

Abstract

The Tenth Symposium on Polar Science/Ordinary sessions: [OS] Space and upper atmospheric sciences, Wed. 4 Dec. / Institute of Statistics and Mathematics (ISM) Seminar room 2 (D304) (3rd floor)

Published
2019

13. Development of low-cost multi-wavelength imager system for studies of aurora and airglow

Author

Akira Kadokura, Michael Kosch, Kazuo Shiokawa, Y. Sato, Hiroshi Miyaoka, Shin-ichiro Oyama, Chris Hall, Kirsti Kauristie, Fred Sigernes, Yoshizumi Miyoshi, Yusuke Ebihara, Andrew J. Gerrard, Tero Raita, Satonori Nozawa, Keisuke Hosokawa, Urban Brandstrom, Björn Gustavsson, Yasunobu Ogawa, Mitsunori Ozaki, Yoshimasa Tanaka, Shin Suzuki, Tetsuo Motoba, and R. Fujii

Subjects
Twilight, Aurora, Ecology, Airglow, Multi wavelength, Observable, Aquatic Science, Luminosity, Polar ionosphere, symbols.namesake, Filter (video), Imager, symbols, General Earth and Planetary Sciences, Environmental science, Monochromatic color, Rayleigh scattering, Ecology, Evolution, Behavior and Systematics, Remote sensing
Abstract

This paper introduces a new system that can monitor aurora and atmospheric airglow using a low-cost Watec monochromatic imager (WMI) equipped with a sensitive camera, a filter with high transmittance, and the non-telecentric optics. The WMI system with 486-nm, 558-nm, and 630-nm band-pass filters has observable luminosity of about ~200–4000 Rayleigh for 1.07-sec exposure time and about ~40–1200 Rayleigh for 4.27-sec exposure time, for example. It is demonstrated that the WMI system is capable of detecting 428-nm auroral intensities properly, through comparison with those measured with a collocated electron-multiplying charge-coupled device (EMCCD) imager system with narrower band-pass filter. The WMI system has two distinct advantages over the existing system: One makes it possible to reduce overall costs, and the other is that it enables the continuous observation even under twilight and moonlight conditions. Since 2013 a set of multi-wavelength WMIs has been operating in northern Scandinavia, Svalbard, and Antarctica to study meso- and large-scale aurora and airglow phenomena. Future development of the low-cost WMI system is expected to provide a great opportunity for constructing a global network for multi-wavelength aurora and airglow monitoring.

Published
2020

15. Characteristics of auroral vortices observed by multiple imagers and EISCAT radar

Author

Yoshimasa, Tanaka, Yasunobu, Ogawa, Akira, Kadokura, Kirsti, Kauristie, Carl-fredrik, Enell, Urban, Brändström, Tima, Sergienko, Björn, Gustavsson, Daniel, Whiter, Alexander, Kozlovsky, Hiroshi, Miyaoka, and Mike, Kosch

Abstract

18th EISCAT symposiumSession E4: Aurora and airglowMay 30 (Tue), Poster Session

Published
2017

17. Long-term variations and trends in the polar E-region

Author

Lindis Merete, Bjoland, Yasunobu, Ogawa, Chris, Hall, Mike, Rietveld, Unni Pia, Løvhaug, Cesar, La Hoz, and Hiroshi, Miyaoka

Abstract

18th EISCAT symposiumSession E3: Ionoshere/thermosphere/mesosphereMay 27 (Sat), NIPR Auditorium

Published
2017

19. ディスクリートアークのオーロラトモグラフィ解析

Author

Björn, Gustavsson, Kirsti, Kauristie, Daniel, Whiter, Carl-fredrik, Enell, Urban, Brändström, Tima, Sergienko, Alexander, Kozlovsky, Noora, Partamies, Michael, Kosch, Yoshimasa, Tanaka, Yasunobu, Ogawa, Akira, Kadokura, and Hiroshi, Miyaoka

Abstract

第7回極域科学シンポジウム:[OS]宙空圏11月29日(火)統計数理研究所 3階 セミナー室D305

Published
2016

20. Feasibility study on Generalized-Aurora Computed Tomography

Author

Ingrid Sandahl, T. Aso, B. Gustavsson, K. Tanabe, Tima Sergienko, Akira Kadokura, Yasunobu Ogawa, Hiroshi Miyaoka, Urban Brandstrom, and Yoshimasa Tanaka

Subjects
Physics, Atmospheric Science, Posterior probability, lcsh:QC801-809, Incoherent scatter, Geology, Astronomy and Astrophysics, Reconstruction algorithm, Inverse problem, lcsh:QC1-999, law.invention, lcsh:Geophysics. Cosmic physics, Space and Planetary Science, law, Riometer, Physics::Space Physics, Earth and Planetary Sciences (miscellaneous), lcsh:Q, Radar, Ionosphere, lcsh:Science, Cosmic noise, lcsh:Physics, Remote sensing
Abstract

Aurora Computed Tomography (ACT) is a method for retrieving the three-dimensional (3-D) distribution of the volume emission rate from monochromatic auroral images obtained simultaneously by a multi-point camera network. We extend this method to a Generalized-Aurora Computed Tomography (G-ACT) that reconstructs the energy and spatial distributions of precipitating electrons from multi-instrument data, such as ionospheric electron density from incoherent scatter radar, cosmic noise absorption (CNA) from imaging riometers, as well as the auroral images. The purpose of this paper is to describe the reconstruction algorithm involved in this method and to test its feasibility by numerical simulation. Based on a Bayesian model with prior information as the smoothness of the electron energy spectra, the inverse problem is formulated as a maximization of posterior probability. The relative weighting of each instrument data is determined by the cross-validation method. We apply this method to the simulated data from real instruments, the Auroral Large Imaging System (ALIS), the European Incoherent Scatter (EISCAT) radar at Tromsø, and the Imaging Riometer for Ionospheric Study (IRIS) at Kilpisjärvi. The results indicate that the differential flux of the precipitating electrons is well reconstructed from the ALIS images for the low-noise cases. Furthermore, we demonstrate in a case study that the ionospheric electron density from the EISCAT radar is useful for improving the reconstructed electron flux. On the other hand, the incorporation of CNA data into this method is difficult at this stage, because the extension of energy range to higher energy causes a difficulty in the reconstruction of the low-energy electron flux. Nevertheless, we expect that this method may be useful in analyzing multi-instrument data and, in particular, 3-D data, which will be obtained in the upcoming EISCAT_3D.

Published
2011

21. Auroral radio emission and absorption of medium frequency radio waves observed in Iceland

Author

Takayuki Ono, Masahide Iizima, Natsuo Sato, Akira Kadokura, Yuka Sato, Atsushi Kumamoto, and Hiroshi Miyaoka

Subjects
Physics, Astrophysics::High Energy Astrophysical Phenomena, Geology, Dipole model of the Earth's magnetic field, Geophysics, Astrophysics, Polarization (waves), Medium frequency, Space and Planetary Science, Auroral chorus, Physics::Space Physics, Substorm, Ionospheric absorption, Ionosphere, Radio wave
Abstract

In order to study the generation and propagation processes of MF auroral radio emissions (referred to as auroral roar and MF burst) in the polar ionosphere, an Auroral Radio Spectrograph (ARS) system was installed at Husafell station in Iceland (invariant latitude: 65.3°). Data analysis of man-made transmissions also provides useful information for the ionosphere study as well as an investigation of auroral radio emissions since the propagation character of MF radio waves changes depending on electron-neutral collisions in the bottomside ionosphere. Thus, ionospheric absorption is examined in comparison with the solar zenith angle and auroral phenomena. The results indicate that the ARS data can be used to detect ionization occurring at distant regions. In late 2006, the ARS detected one auroral roar and twoMF bursts, which were identified as left-handed polarized waves. Results of data analysis, including other auroral data and particle spectra observed by the DMSP satellite, suggest that the MF bursts are generated by electrons with an average energy of several keV associated with auroral breakup. On the other hand, the auroral roar is generated as upper hybrid waves by relatively low-energy electrons over the observation site and propagates downward, being converted into L-O mode electromagnetic waves.

Published
2008
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22. 東向きに拡大するオーロラサージの3次元構造

Author

Noora, Partamies, Daniel, Whiter, Carl-fredrik, Enell, Bjorn, Gustavsson, Urban, Brandstrom, Tima, Sergienko, Alexander, Kozlovsky, Yoshimasa, Tanaka, Yasunobu, Ogawa, Akira, Kadokura, Carl-fredrik, Enal, Björn, Gustavsson, Urban, Brändström, and Hiroshi, Miyaoka

Abstract

第6回極域科学シンポジウム[OS] 宙空圏11月16日(月) 国立極地研究所1階交流アトリウム

Published
2015

24. Eastward-expanding auroral surges observed in the post-midnight sector during a multiple-onset substorm

Author

Akimasa Yoshikawa, Hiroshi Miyaoka, Akira Kadokura, Björn Gustavsson, Urban Brandstrom, Carl-Fredrik Enell, Yoshimasa Tanaka, Daniel Whiter, Tima Sergienko, Noora Partamies, Yasunobu Ogawa, and Alexander Kozlovsky

Subjects
VDP::Mathematics and natural science: 400::Geosciences: 450::Meteorology: 453, Magnetometer, Omega bands, FOS: Physical sciences, Magnetic dip, Astrophysics, Omega, Magnetic pulsations, law.invention, Latitude, Physics - Space Physics, law, Midnight, Auroral streamers, Substorm, Surge, Substorm expansion phase, Geology, Eastward-expanding auroral surges, VDP::Matematikk og Naturvitenskap: 400::Geofag: 450::Meteorologi: 453, Space Physics (physics.space-ph), Amplitude, Space and Planetary Science, Post-midnight sector, Ionospheric equivalent current
Abstract

Published version also available at href=http://dx.doi.org/10.1186/s40623-015-0350-8 We present three eastward-expanding auroral surge (EEAS) events that were observed intermittently at intervals of about 15 min in the post-midnight sector (01:55–02:40 MLT) by all-sky imagers and magnetometers in northern Europe. It was deduced that each surge occurred just after each onset of a multiple-onset substorm, which was small-scale and did not clearly expand westward, because they were observed almost simultaneously with Pi 2 pulsations at the magnetic equator and magnetic bay variations at middle-to-high latitudes associated with the DP-1 current system. The EEASs showed similar properties to omega bands or torches reported in previous studies, such as recurrence intervals of about 15 min, concurrence with magnetic pulsations with amplitudes of several tens of nanotesla, horizontal scales of 300–400 km, and occurrence of a pulsating aurora in a diffuse aurora after the passage of the EEASs. Furthermore, the EEASs showed similar temporal evolution to the omega bands, during which eastward-propagating auroral streamers occurred simultaneously in the poleward region, followed by the formation of north-south-aligned auroras, which eventually connected with the EEASs. Thus, we speculate that EEASs may be related to the generation process of omega bands. On the other hand, the EEASs we observed had several properties that were different from those of omega bands, such as greater eastward propagation speed (3–4 km/s), shorter associated magnetic pulsation periods (4–6 min), and a different ionospheric equivalent current direction. The fast eastward propagation speed of the EEASs is consistent with the speed of eastward expansion fronts of the substorm current wedge reported in previous studies. The difference in the ionospheric current between the EEASs and omega bands may be caused by a large temporal variation of the surge structure, compared with the more stable wavy structure of omega bands.

Published
2015

29. Recent progress of EISCAT_3D

Author

Hiroshi, Miyaoka, Satonori, Nozawa, Yasunobu, Ogawa, Takuji, Nakamura, Shin-ichiro, Oyama, and Ryoichi, Fujii

Published
2014

31. Project of auroral X-ray image observations using two-dimentional array of Si(Li) semiconductor detectors

Author

Atsushi Nakamoto, Hiroyuki Murakami, Kiyoaki Okudaira, Yo Hirasima, Takamasa Yamagami, Shigeo Ohta, Michiyoshi Namiki, Jun Nishimura, Masahiro Kodama, Hiroshi Miyaoka, Natsuo Sato, and Ryoichi Fujii

Subjects
Geography (General), G1-922
Abstract

To observe auroral X-ray images, the horizontal two-dimensional array of the Lithium-drifted Silicon Si(Li) detectors has been developed. The auroral X-ray imager has 5×5 pixels. The sensor element of one pixel is the 18×18mm area and 5mm thick Si(Li) detector. The Si(Li) detectors have such large noises at room temperature as to be unsuitable for X-ray measurements, but the noises become much smaller at -20℃. Then, X-ray measurements are fully possible at this low temperature. In observations by a stratospheric balloon, cooling of the semiconductor detectors is made by dissipating of heat to low temperature environment. The heat pipe has been used to cool the chamber containing the Si(Li) detectors. The energy range of auroral X-rays to be observed is from 37 to 200keV. The horizontal two-dimensional array of Si(Li) detectors is placed in a pinhole collimator. The angular resolution of the auroral X-ray imager is 15° at the center pixel. The full field of view of the imager is 62°. In July 1985,the balloon flight with this auroral X-ray imager has been performed in the northern auroral region.

Published
1985
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32. Polar Patrol Balloon experiment during 1991-1993

Author

Ryoichi Fujii, Hiroshi Miyaoka, Akira Kadokura, Ono Takayuki, Hisao Yamagishi, Natsuo Sato, Masaki Ejiri, Takeo Hirasawa, Jun Nishimura, Nobuyuki Yazima, Takamasa Yamagami, Shigeo Ohta, Hiromitsu Akiyama, Koichiro Tsuruda, Masahiro Kodama, Hiroshi Fukunishi, D. Manabu Yamanaka, and Susumu Kokubun

Subjects
Geography (General), G1-922
Abstract

Since 1984 the National Institute of Polar Research, the Institute of Space and Astronautical Science and collaborative scientists have conducted the long-term circumpolar balloon program that is called Polar Patrol Balloon (PPB) project, and they also have developed ballooning technologies for this program. This project aims at establishing a station network in the stratosphere over the Antarctic region for geophysical and astrophysical observations. Two test flight experiments that were performed by the 28th Japanese Antarctic Research Expedition (JARE) in 1987 have convinced us that PPB would come back to the launching area with a good possibility. During 1991 and 1993 (JARE-32-34) at Syowa Station. The PPB experiments will consequently be done for scientific researches. This brief paper reports unique advantages of PPB, specifications and expected trajectories of PPB, and planned scientific researches with PPB.

Published
1989
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33. Observation of HF Plasma Wave Spectrum at Ionospheric Level Using Sounding Rocket S-210JA-21 in Antarctica (e. Event Session) (Proceedings of the Second Symposium on Coordinated Observations of the Ionosphere and the Magnetosphere in the Polar Regions : Part II)

Author

Hiroshi OYA, Hiroshi MIYAOKA, and Sadao MIYATAKE

Subjects
Geography (General), G1-922
Abstract

An observation of the plasma wave spectrum in a high frequency range from 0.1 to 10 MHz has been made using the ionospheric sounding rocket S-210JA-21, launched on July 26, 1976 from Syowa Station in Antarctica. Plasma wave emissions were observed in two frequency ranges ; the first range is from the UHR frequency to the Z-mode cut ofr frequency, and the second is a range lower than the electron cyclotron frequency. The center frequency of the first kind emissions indicates a variation corresponding to the local upper hybrid and to the electron plasma frequencies along the flight path of S-210JA-21, indicating an evidence that the emissions are produced in the ionosphere as a result of the wave-particle interaction due to the auroral precipitation particles. The intensity of the second type emissions has been changed in correlation with the electron flux in the 40-60 keV range that is observed by ESH simultaneously. It has been clarified that the second kind emissions are plasma waves of the electrostatic origin which are also excited at the lower ionospheric level by the electrons precipitating along the auroral field line.

Published
1980
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34. Observation of HF Plasma Wave Emissions at Ionospheric Level Using SOunding Rocketes S-310JA-1, 2 in Antarctica

Author

Hiroshi OYA, Hiroshi MIYAOKA, and Sadao MIYATAKE

Subjects
Geography (General), G1-922
Abstract

Observations of the plasma wave emissions in a high frequency range from 01 to 10 MHz have been made using the lonospheric sounding rockets S-310JA-1, and 2, launched on February 13, 1976 and on February 10,1977, respectively, from Syowa Station in Antarctica The observed HF plasma waves are characterized by the electrostatic electron cyclotron harmonic waves generated by the beam-wave interaction in the ionosphere The flight of S-310JA-1 rocket was carried out after the termination of a substorm effect, where the drifting electrons were making enhanced precpitation near the rocket path ; enhancement of the HF plasma waves was remarkable at UHR (upper hybrid resonance) frequency and in a frequency range lower than the electron cyclotron frequency associated with nonlinear wave-particle interactions. The S-310JA-2 flight was made during the particle precipitation of a diffuse aurora where the HF emissions were weaker than the case of S-310JA-1, due to soft precipitation of particles

Published
1979
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35. The laser radar system for measurement of the middle atmosphere at Syowa Station in Antarctica

Author

Yasunobu Iwasaka, Takeo Hirasawa, Hiroshi Fukunishi, Ryoichi Fujii, Hiroshi Miyaoka, Syoji Ito, Noboru Yasuda, and Hiroyasu Ohtani

Subjects
Geography (General), G1-922
Abstract

Multiwavelength laser radar system was installed at Syowa Station in 1983 by the 24th Japanese Antarctic Research Expedition for measurement of the middle atmospheric phenomena in cooperation with International Middle Atmosphere Program (MAP). The laser radar can simultaneously shoot two kinds of laser pulses (0.6943μm : the fundamental wave, 0.3471μm : the second harmonic wave) by means of ruby laser with regulated repetition frequencies (maximum : 1Hz) and receive scattered light by a telescope with the 50 cmφ-lens in efficient diameter. The measurement can be done by using a photon counter for each wave and A-scope for the fundamental wave. The test observation had been successfully made in Japan and it showed the remarkable increases of the strato-spheric aerosol due to the volcanic eruption of Mt. El Chichon. It was also inferred that the size distribution of the particles in the aerozol layer is inhomogeneous.

Published
1983
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36. Simulation on ring current formation: A case study of a storm on February 13, 1972

Author

Yusuke, Ebihara, Masaki, Ejiri, Hiroshi, Miyaoka, Department of Polar Science, The Graduate University for Advanced Studies, and National Institute of Polar Research

Subjects
Physics::Space Physics, Physics::Geophysics
Abstract

We developed a computer simulation scheme for the motion of energetic particles trapped in the Earth's magnetic field during a magnetic storm. The particles are injected into the inner magnetosphere from the near-Earth plasma sheet by a strong inductive electric field due to a dipolarization in association with a substorm. The motion of the particles is traced by the bounce-average approximation under a dipolar magnetic field and the Volland-Stern type convection field. The absolute quantity of a directional differential flux of the particles can be obtained. We can calculate the azimuthal component of the current density and an H-component of the magnetic disturbance at the center of the Earth (Dst^*) induced by the current. In this paper, we examine the formation of the ring current and the magnetic disturbance on the moderate storm occurred on February 13-14,1972. We find that (1) the inductive electric field due to the dipolarization may be one of major contributors to Dst^* on this storm, (2) the steep variations of Dst^* in the main phase cannot reproduced by the inductive electric field model, (3) the intensity of Dst^* is sensitive to the number density in the near-Earth plasma sheet, that is, an enhancement of the number density in the near-Earth plasma sheet may produce the steep and the major variations of Dst^*.

Published
1998

37. The size of the auroral belt during magnetic storms

Author

Hiroshi Miyaoka, N. Yokoyama, Yohsuke Kamide, and EGU, Publication

Subjects
Geomagnetic storm, Physics, Atmospheric Science, [SDU.OCEAN] Sciences of the Universe [physics]/Ocean, Atmosphere, lcsh:QC801-809, Plasma sheet, Electron precipitation, Magnetosphere, Geology, Astronomy and Astrophysics, Geophysics, lcsh:QC1-999, Physics::Geophysics, lcsh:Geophysics. Cosmic physics, Dipole, Space and Planetary Science, Adiabatic invariant, Physics::Space Physics, [SDU.STU] Sciences of the Universe [physics]/Earth Sciences, Earth and Planetary Sciences (miscellaneous), lcsh:Q, Ionosphere, lcsh:Science, lcsh:Physics, Ring current
Abstract

Using the auroral boundary index derived from DMSP electron precipitation data and the Dst index, changes in the size of the auroral belt during magnetic storms are studied. It is found that the equatorward boundary of the belt at midnight expands equatorward, reaching its lowest latitude about one hour before Dst peaks. This time lag depends very little on storm intensity. It is also shown that during magnetic storms, the energy of the ring current quantified with Dst increases in proportion to Le–3, where Le is the L-value corresponding to the equatorward boundary of the auroral belt designated by the auroral boundary index. This means that the ring current energy is proportional to the ion energy obtained from the earthward shift of the plasma sheet under the conservation of the first adiabatic invariant. The ring current energy is also proportional to Emag, the total magnetic field energy contained in the spherical shell bounded by Le and Leq, where Leq corresponds to the quiet-time location of the auroral precipitation boundary. The ratio of the ring current energy ER to the dipole energy Emag is typically 10%. The ring current leads to magnetosphere inflation as a result of an increase in the equivalent dipole moment.Key words. Ionosphere (Auroral ionosphere) · Magnetospheric physics (Auroral phenomena; storms and substorms)

Published
1998
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38. Auroral tomography analysis of a folded arc observed at the ALIS-Japan multi-station campaign on March 26, 1995

Author

Takehiko, Aso, Masaki, Ejiri, Akira, Urashima, Hiroshi, Miyaoka, Ake, Steen, Urban, Brändström, Björn, Gustavsson, and National Institute of Polar Research/National Institute of Polar Research/Department of Electrical Engineering, Kyoto University/National Institute of Polar Research/Swedish Institute of Space Physics/Swedish Institute of Space Physics/Swedish Institute of Space Physics

Abstract

Auroral tomography is a state-of-the-art method to retrieve three dimensional (3D) structure of luminous aurora from images taken simultaneously at multiple observation points. Imaging is basically monochromatic and altitude structures as well as horizontal vortex structures at particular wavelength are reconstructed. These are crucial for quantitative understanding of auroral formation and dynamical processes. In March 1995,the first multi-point international campaign between Sweden and Japan was carried out using three unmanned Swedish ALIS stations (Kiruna, Merasjarvi, Tjautjas) and two Japanese sites (Abisko, Nikkaluokta), separated by about 50km in Kiruna region. ALIS stands for the Auroral Large Imaging System which aims at capturing large-scale composite auroral images as well as optical tomographic imaging by a computer-controlled networking. In this paper, a description is given on the analysis of auroral tomography on the reconstruction of folded auroral arc observed at 2340 : 30 UT on March 26,1995. The images are taken for 1-5s integration at a green line of 557.7nm. Cameras were pointed to one of the preset common field of view, viz., a core region which is just overhead of Kiruna. Optical tomography relying on inversion analysis by the algebraic reconstruction technique has been carried out. The result indicates a fold structure of auroral arc with inferred altitude profile of photo-emission peaking at around 120km.

Published
1998

40. Altitude profile of electron density and oxygen green line in active auroral arcs based on electron differential number flux observed by sounding rocket

Author

Kunizo, Onda, Masaki, Ejiri, Yukikazu, Itikawa, Hiroshi, Miyaoka, Faculty of Industrial Science and Technology Science University of Tokyo, National Institute of Polar Research, and Institute of Space and Astronautical Science

Abstract

The Monte Carlo method was applied to investigate electron auroras observed by the sounding rocket S-310JA-8,which was launched on April 4,1984 from Syowa Station in Antarctica of the invariant latitude 66.14°S and the geomagnetic longitude 70.98°. The number density of the atmosphere, in which constituent elements were assumed to be N_2,O and O_2,and temperatures were estimated by the MSIS-86 model for the aurora observed there. A downward electron differential number flux was measured at the altitude of 200km, from which electrons were injected downward into the upper atmosphere. An initial electron energy E_0 is investigated in the range from 100 eV to 18 keV. An initial pitch angle was assumed to be uniformly distributed in the range of [0,π/2].Ionization rates of N_2,O and O_2 were calculated as a function of an altitude, the initial pitch angle, and the initial electron energy. The total ionization rate obtained by summing up individual ionization rate was considered to be a production rate of thermal electrons. A loss rate of thermal electrons was estimated by using an electron density and an effective recombination rate. Under the assumption of local equilibrium of ionization and recombination, the height profile of electron density was deduced and compared with the observed one. The height profile of an emission rate was also investigated for the oxygen green line. The emission rate calculated as contribution from the electron impact was compared with the one produced by the collision process N_2 (A^3Σ_u^+)+O(^3P), and it was made clear that the latter collision process was more efficient to excite oxygen atoms from O(^3P) to O(^1S) than the electron impact in the wide range of electron energy observed by the sounding rocket.

Published
1998

41. Simulation of auroral photoemission rate for the first negative band system of N+2 at λ427.8nm using electron differential number flux observed by the sounding rocket

Author

Kunizo, Onda, Hiroshi, Miyaoka, Yukikazu, Itikawa, Masaki, Ejiri, Faculty of Industrial Science and Technology, Science University of Tokyo, National Institute of Polar Research, and Institute of Space and Astronautical Science

Abstract

Electron auroras observed by the sounding rocket S-310JA-8 are investigated by using the Monte Carlo method. The MSIS-86 model is employed to represent the atmospheric number density and temperature in the aurora observed at Syowa Station in Antarctica of the invariant latitude 66.14°S and the geomagnetic longitude 70.98°on April 4,1984. Only N_2,O and O_2 are taken into account as components of the atmosphere. Electrons are injected downward into the upper atmosphere at the altitude of 200km, at which a downward electron differential number flux was measured. An initial electron energy E_0 is considered in the range of 100eV to 18keV. It is assumed that an initial pitch angle is uniformly distributed in the range of [0,π/2]. Production and emission at λ427.8nm rates of the first negative band system of nitrogen molecular ions N^+_2 (B^2Σ^+_u) are calculated as a function of altitude, the initial pitch angle, and the initial electron energy. Time variation of the observed absolute intensity of this line is reasonably well reproduced by the Monte Carlo method combined with the measured electron number flux. The difference in the absolute intensities obtained by experiment and theory is 5% at the time X+216s. This confirms that the Monte Carlo method is applicable to simulate collision processes and the resulting production and emission rates in electron auroras. Some representative results of emission rates are also presented for oxygen green and red lines.

Published
1997

42. Loss effects for energetic protons associated with a magnetic storm in the inner magnetosphere

Author

Yusuke, Ebihara, Hiroshi, Miyaoka, Fumio, Tohyama, Masaki, Ejiri, Tokai University, and National Institute of Polar Reserch

Subjects
Physics::Space Physics
Abstract

Development of the ring current is one of major phenomena during a magnetic storm in the Earth's magnetosphere. Ring current protons collide with other particles (e.g., geocoronal hydrogen and plasmaspheric electrons) and lose their energies within a few days. The primary loss processes for ring current protons are considered as; (i) charge exchange with the geocoronal neutral hydrogen, and (ii) Coulomb collision with the plasmaspheric thermal electrons. In order to estimate the loss rate caused by both loss processes numerically, it is essential to trace each particle along their trajectories because the drift paths basically depend on energy, pitch angle, initial position of charged particles and the magnetospheric electric and magnetic fields. For this purpose, we have developed a particle simulation code including the charge exchange and the Coulomb collision as the major loss processes with a time-dependent magnetospheric electric field. A new plasmaspheric density model is also developed to evaluate the Coulomb collision between the ring current protons and the plasmaspheric thermal electrons. This model is a two dimensional and time-development on plasmaspheric number density, derived from a continuity equation along a magnetic flux tube connecting with the conjugate ionospheres in both hemispheres. Using this model, we obtained the electron density distribution in the plasmasphere which was fairly consistent with the one obtained by EXOS-B satellite observation. In this paper, we demonstrate the trajectory of 100 eV (lower energy) and 100keV (higher energy) protons associated with a magnetic storm. Their energies are lost effectively by Coulomb collisions more than charge exchange loss process, and hence, thermal electron distribution in the inner plasmasphere gives an important effect for lower and/or higher energy protons.

Published
1997

43. Database and data search system using 'KANSEI' words for aurora image files of DMSP satellites

Author

Yoshisuke, Kurozumi, Sawako, Maeda, Hiroki, Tamenaga, Hiroshi, Miyaoka, Akira, Kadokura, A.Sessai, Yukimatsu, and Kyoto Sangyo University/Kyoto University of Art and Design/Kyoto Sangyo University/National Institute of Polar Research/National Institute of Polar Research/National Institute of Polar Research

Subjects
Data_FILES, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION
Abstract

Image Database Systems usually have some keywords selected by human decision. In recent years, it has been an interesting problem to develop a method by which shapes, colors and contents for a specific image from image files are recognized automatically through image processing. Furthermore, it becomes important to determine properly the keywords representing impression of images, that is, 'KANSEI' words. We try to construct a database and data search system of the DMSP satellite auroral image files. At first, an index file including information such as file name, size, date and geometric feature of images is created through image processing. The impressional items for auroral shapes such as brightness, position, and impression are derived by a coordinate conversion method so called the 'KANSEI' space method. The system contains about 100 image files and the index file. A specific image data is searched with the index file and the conversion method of 'KANSEI' words.

Published
1997

44. 南極望遠鏡計画

Author

Naomasa, NAKAI, Takashi, ICHIKAWA, Masumichi, SETA, Hideaki, MOTOYAMA, Hiroshi, MIYAOKA, and of Antarctica Astronomy, Consortiaum

Abstract

(New) Dome Fuji Station, which is located at 3800m above sea level and whose temperature is quite low (-20℃~-80℃), is one of the best and unique sites for astronomical observations at infrared to submillimeter wavelengths on the ground. We are planning to constract two large terahertz and infrared telescopes at the station under the 9th JARE six-year plan, aiming at making astronomical observations including to search missing galaxies., 第4回極域科学シンポジウム特別セッション:[S] 南極研究の将来展望―第Ⅸ期6か年計画策定に向けて11月14日(木) 国立極地研究所 2階大会議室

Published
2013

45. Experimental results of Polar Patrol Balloon project in Antarctica (extended abstract)

Author

Masaki, Ejiri, Hiromitsu, Akiyama, Edgar A., Bering, Ryoichi, Fujii, Masahiko, Hayashi, Yo, Hirasima, Akira, Kadokura, Hiroshi, Kanzawa, Masahiro, Kodama, Hiroshi, Miyaoka, [etc], and National Institute of Polar Research/Institute of Space and Astronautical Science/Department of Physics,University of Houston/Solar-Terrestrial Environment Laboratory,Nagoya University/Solar-Terrestrial Environment Laboratory,Nagoya University/Rikkyo University/National Institute of Polar Research/National Institute for Environmental Studies/Institute of Physical and Chemical Research/National Institute of Polar Research [etc]

Published
1995

46. An effect of charge exchange processes on the proton enhancement associated with a storm/substorm in the magnetosphere

Author

Naoya, Takamura, Hiroshi, Miyaoka, Fumio, Tohyama, Masaki, Ejiri, Tokai University, and National Institute of Polar Research

Subjects
Physics::Space Physics, Astrophysics::Earth and Planetary Astrophysics
Abstract

Energetic protons in the radiation belt of the earth's magnetosphere show energy density enhancement associated with geomagnetic storms/substorms, which observation with Explorer 45 evidently revealed as a nose structure in the E-t spectrogram inside the plasmasphere. An attempt has been made to explain this by an injection model in which energetic protons are injected around a nightside geosynchronous orbit with their subsequent inward motions due to a convection electric field possibly driven by the solar wind and a corotation electric field. It is also important to include a loss mechanism in the model inside the plasmasphere since the protons decay due to charge exchange loss processes with geocoronal neutral hydrogen. The loss rate of protons depends on the hydrogen density and charge exchange cross section. In this study, the effect of the charge exchange loss is examined by computer simulation of energetic proton trajectories in the magnetosphere; the hydrogen density being obtained by the Chamberlain model and the charge exchange cross section being adopted from the latest approximate formula. It is concluded that loss processes play an essential role in the energy density distributions of protons in the near earth radiation belts, especially inside L of about 4.

Published
1995

49. On the simultaneity of substorm onset between two hemispheres

Author

Jean-Gabriel Trotignon, Bodo W. Reinisch, T Asozu, Fuminori Tsuchiya, Akira Morioka, Akira Kadokura, Hiroaki Misawa, Hiroshi Miyaoka, Yoshizumi Miyoshi, S. Okano, Natsuo Sato, Farideh Honary, Kiyohumi Yumoto, George K. Parks, Yasumasa Kasaba, and Pierrette Décréau

Subjects
Atmospheric Science, Simultaneity, 010504 meteorology & atmospheric sciences, Soil Science, Auroral kilometric radiation, Aquatic Science, Oceanography, 01 natural sciences, Geochemistry and Petrology, Time difference, 0103 physical sciences, Substorm, Earth and Planetary Sciences (miscellaneous), 010303 astronomy & astrophysics, 0105 earth and related environmental sciences, Earth-Surface Processes, Water Science and Technology, Ecology, Paleontology, Forestry, Geophysics, Breakup, Space and Planetary Science, Ionosphere, Geology
Abstract

Simultaneous observations of auroral kilometric radiation from the Northern and Southern Hemispheres showed some cases in which the buildup of field-aligned acceleration occurred only in one hemisphere at the substorm onset. This indicates that a substorm does not always complete the current system by connecting the cross-tail current with both northern and southern ionospheric currents. Conjugate auroral observations showed that in one case, the auroral breakup in the Northern and Southern Hemispheres was not simultaneous; rather, they occurred a few minutes apart. This time difference in the breakup between two hemispheres suggests that the local auroral ionosphere controls auroral breakup in each hemisphere independently. The evidence in this study may indicate that the buildup of the field-aligned acceleration region at the auroral breakup does not result only from the magnetospheric process and that the auroral ionosphere finally controls and/or ignites the substorm onset, that is, the auroral breakup.

Published
2011
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50. On the statistical relation between ion upflow and naturally enhanced ion-acoustic lines observed with the EISCAT Svalbard radar

Author

Ingemar Häggström, Michael Rietveld, Hiroshi Miyaoka, Satonori Nozawa, Ryoichi Fujii, Stephan Buchert, and Yasunobu Ogawa

Subjects
Physics, Atmospheric Science, Ecology, Incoherent scatter, Paleontology, Soil Science, Flux, Forestry, Aquatic Science, Oceanography, Atmospheric sciences, F region, Geophysics, Earth's magnetic field, Space and Planetary Science, Geochemistry and Petrology, Local time, Earth and Planetary Sciences (miscellaneous), Geomagnetic latitude, Extremely low frequency, Ionosphere, Earth-Surface Processes, Water Science and Technology
Abstract

[1] We have investigated characteristics of ion upflow and naturally enhanced ion-acoustic lines (NEIALs) based on the European Incoherent Scatter (EISCAT) Svalbard radar (ESR) data continuously obtained between March 2007 and February 2008. For the ion upflow study we have used approximately 78,000 field-aligned profiles obtained with the ESR. For the NEIAL study we have identified approximately 1500 NEIALs in the ESR data at altitudes between 100 and 500 km. The occurrence frequency of ion upflow shows two peaks, at about 0800 and 1300 magnetic local time (MLT), while only one strong peak is seen around 0900 MLT for NEIALs. The upward ion flux also has only one peak around 1100–1300 MLT. The occurrence frequency of ion upflow varies strongly over season. It is higher in winter than in summer, whereas NEIALs are more frequent in summer than in winter. NEIALs frequently occur under high geomagnetic activity and also high solar activity conditions. Approximately 10% of NEIALs in the F region ionosphere were accompanied by NEIALs in the E region (occurred at altitudes below 200 km). About half of the E region enhanced echoes did not have an F region counterpart. Upshifted NEIALs dominate in the E region whereas downshifted NEIALs are usually stronger above an altitude of 300 km. The high occurrence frequency of NEIALs in the prenoon region (0800–1000 MLT) might be associated with acceleration of thermal ions to suprathermal ones. At the same MLT and geomagnetic latitude suprathermal ions and broadband extremely low frequency (BBELF) wave activity have been observed, according to previous studies.

Published
2011
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