JpGU Meeting 2025
Session Outline| Space and Planetary Sciences (P) | ||||
|---|---|---|---|---|
| Session Sub-category | Solar-Terrestrial Sciences, Space Electromagnetism & Space Environment (EM) | |||
| Session ID | P-EM12 | |||
| Session Title | Coupling Processes in the Atmosphere-Ionosphere System | |||
| Short Title | Atmosphere-Ionosphere Coupling | |||
| Date & Time | Oral Session |
PM1-PM2 Sun, 25 MAY & AM1-PM2 Mon, 26 MAY | ||
| On-site Poster Coretime |
PM3 Sun. 25 MAY | |||
| Main Convener | Name | Keisuke Hosokawa | ||
| Affiliation | Department of Communication Engineering and Informatics, University of Electro-Communications | |||
| Co-Convener 1 | Name | Huixin Liu | ||
| Affiliation | Earth and Planetary Science Division, Kyushu University SERC, Kyushu University | |||
| Co-Convener 2 | Name | Yuichi Otsuka | ||
| Affiliation | Institute for Space-Earth Environmental Research, Nagoya University | |||
| Co-Convener 3 | Name | Loren Chang | ||
| Affiliation | Department of Space Science and Engineering, National Central University | |||
| Session Language | E | |||
| Scope (Session Description) |
The Atmosphere-Ionosphere (A-I) system forms the so-called near-Earth space. Recent rapidly expanding use of satellite constellations in low Earth orbit (LEO) drives a high demand for better understanding and accurate forecast of the global A-I system for scientific and operational purposes. This session aims to provide a forum for research advances and frontiers related to these aspects, and we invite presentations on global A-I coupling at all temporal and spatial scales. This includes but is not limited to: A-I coupling via atmospheric waves (tides, gravity waves, planetary waves) and trace gases (CO2, O3, H2O), A-I response to Space Weather events (solar flares, CMEs, CIRs), polar-equatorial, inter-hemispheric coupling via TADs/TIDs/disturbance dynamo/penetration electric field, ionospheric plasma irregularities, and ionospheric currents. Observations, theoretical studies, model simulations, data assimilation, instruments development are all highly welcome. |
|||
| Session Format | Orals and Posters session | |||
| Co-sponsorship | Partner Union(s) | AGU | ||
| JpGU Society Member(s) | Society of Geomagnetism and Earth, Planetary and Space Sciences | |||
| International Collaborative Society | - | |||
| Organizations Other Than JpGU Society Members | - | |||
| Time | Presentation No | Title | Presenter |
|---|---|---|---|
| Oral Presentation May 25 AM2 | |||
| 10:45 - 11:00 | PEM12-01 | On occurrence of ionospheric super plasma bubbles during severe geomagnetic storms | Irina Zakharenkova |
| 11:00 - 11:15 | PEM12-02 | Development of Super Plasma Bubbles During the 7 September 2017 Geomagnetic Storm Revealed by Coupled GITM-SAMI3 Simulations | Zihan Wang |
| 11:15 - 11:30 | PEM12-03 | Modeling the post-midnight equatorial plasma bubbles with SAMI3/SD-WACCM-X | Min-Yang Chou |
| 11:30 - 11:45 | PEM12-04 | Detecting the plasma bubble at Western Australia in the MWA data | Yoshiura Shintaro |
| 11:45 - 12:00 | PEM12-05 | Evolution of Post-Sunset Equatorial Plasma Bubbles: Relationships to the Equatorial Ionospheric Anomaly Induced by Pre-Reversal Enhancement Electric Fields | Lung-Chih Tsai |
| 12:00 - 12:15 | PEM12-06 | The Characteristics and dynamics of Equatorial Plasma Bubbles (EPBs) observed by Equatorial Atmosphere Radar (EAR) during solar cycle 24 | Ajith Kaippallimyalil Kuriakose |
| Oral Presentation May 25 PM1 | |||
| 13:45 - 14:00 | PEM12-07 | Super equatorial plasma bubbles associated with storm-induced plasma stream during the 1 December 2023 storm | Guanyi Ma |
| 14:00 - 14:15 | PEM12-08 | Plasma bubble extending to the northern Tohoku area during a magnetic storm on Jan. 1, 2025 | Takeshi Sakanoi |
| 14:15 - 14:30 | PEM12-09 | Impact of Neutral Wind Dynamo on the Magnetospheric Configuration: MHD-GCM Coupled Simulations for May 2024 Storm | Yue Deng |
| 14:30 - 14:45 | PEM12-10 | Electrodynamic, ionospheric and thermospheric effects during the 10-11 May 2024 geomagnetic superstorm | Elvira Astafyeva |
| 14:45 - 15:00 | PEM12-11 | Temporal and spatial variation of electron density in the plasmasphere and ionosphere during the May 2024 super geomagnetic storm | Atsuki Shinbori |
| 15:00 - 15:15 | PEM12-12 | The 3-4 November 2021 Geomagnetic Storm: An Event Study with Focus on Ionosphere-Thermosphere Coupling over North America | Jonna Marie Wehmeyer |
| Oral Presentation May 25 PM2 | |||
| 15:30 - 15:45 | PEM12-13 | Development of the Chinese Dual Auroral Radar Network and Preliminary Results | Jiaojiao Zhang |
| 15:45 - 16:00 | PEM12-14 | The ionospheric response during the super geomagnetic storm on May 10-11, 2024 | Qingtao Wan |
| 16:00 - 16:15 | PEM12-15 | Investigation of Medium-Scale Traveling Ionospheric Disturbances using ISS-IMAP/VISI: Case Studies and Climatological Analysis | Yuta Hozumi |
| 16:15 - 16:30 | PEM12-16 | Evaluating the generation of traveling ionospheric disturbances by solar terminators and eclipses | Hyosub Kil |
| 16:30 - 16:45 | PEM12-17 | Ionospheric Lamb Waves with Conical Phase Fronts Following the 2022 Tonga Eruption Unveiled by Beidou GEO Observations | Ruoxi Li |
| 16:45 - 17:00 | PEM12-18 | GNSS remote sensing of man-made space weather events on consecutive days over East Asia during January 2024 | Charles Lin |
| Oral Presentation May 26 AM1 | |||
| 9:00 - 9:15 | PEM12-19 | Examining metal ion transport’s contribution to the sporadic E layer occurrence in the summertime southern hemisphere | Satoshi Andoh |
| 9:15 - 9:30 | PEM12-20 | Resonance-scattering Ca/Ca+ lidar: simultaneous observation of Ca and Ca+ layers and preliminary measurements of temperature and wind velocity | Ayaka Hashimoto |
| 9:30 - 9:45 | PEM12-21 | Investigation of the daytime sporadic-E layer by the RIDE campaign 2025 | Akinori Saito |
| 9:45 - 10:00 | PEM12-22 | Horizontal structures and movements of sporadic E layers observed with ionosonde receiver network | Yuki Kojo |
| 10:00 - 10:15 | PEM12-23 | Sporadic-E layer responses to super geomagnetic storm 10-12 May 2024 | Lihui Qiu |
| 10:15 - 10:30 | PEM12-24 | High-Resolution 3-D Imaging of Electron Density Perturbations Using GNSS Observations Over Japan | Weizheng Fu |
| Oral Presentation May 26 AM2 | |||
| 10:45 - 11:00 | PEM12-25 | The Whole Atmosphere Lidar: Obtaining wind and temperature profiles from ground to space by active remote sensing | Bernd Kaifler |
| 11:00 - 11:15 | PEM12-26 | ICON/MIGHTI as a Nightglow Probe of the Atomic Oxygen Green Line | Konstantinos S. Kalogerakis |
| 11:15 - 11:30 | PEM12-27 | Orthoherium variability from the upper thermosphere to the lower exosphere observed at Longyearbyen, Svalbard (78.1°N, 16.0°E) | Takanori Nishiyama |
| 11:30 - 11:45 | PEM12-28 | ROKITS: Imaging the Aurora and Airglow from Space | Woo Kyoung Lee |
| 11:45 - 12:00 | PEM12-29 | Spectrum of high-altitude blue auroral emissions observed with hyperspectral camera for auroral imaging (HySCAI) during astronomical twilight | Katsumi Ida |
| 12:00 - 12:15 | PEM12-30 | Enhanced HF-START Web System for Visualizing HF Radio Wave Propagation in the Variable Atmosphere-Ionosphere Coupled System | Chihiro Tao |
| Oral Presentation May 26 PM1 | |||
| 13:45 - 14:00 | PEM12-31 | Deformation of the Solar Quiet Current Vortex Driven by Non-Migrating Tides Over Asia | Yang-Yi Sun |
| 14:00 - 14:15 | PEM12-32 | Causes of the abnormally strong easterly phase of the mesopause SAO during the March equinox of 2023 revealed by a new reanalysis data covering the entire middle atmosphere | Kaoru Sato |
| 14:15 - 14:30 | PEM12-33 | Propagation characteristics of gravity waves over the Andes, observed by OH arirglow imaging at Rio Gallegos: horizontal phase velocity spectrum analysis. | Takuji Nakamura |
| 14:30 - 14:45 | PEM12-34 | Retrieval of the day-to-day variability of MLT tides at low latitudes from a radar network: Feasibility study using WACCM-X and JAWARA | Jose Suclupe |
| 14:45 - 15:00 | PEM12-35 | On the charging of dust particles in the mesosphere | Ingrid Brigitte Mann |
| 15:00 - 15:15 | PEM12-36 | Asymmetric ionospheric disturbances observed by GNSS during the 2017 typhoon: origin and characteristics | Junxian Fu |
| Oral Presentation May 26 PM2 | |||
| 15:30 - 15:45 | PEM12-37 | Ionospheric response to the competition between penetration electric field and thermospheric O/N2 | Yongliang Zhang |
| 15:45 - 16:00 | PEM12-38 | The Variability of the Equatorial Ionospheric Vertical and Field-aligned Plasma Drifts During the SSW | Ruilong Zhang |
| 16:00 - 16:15 | PEM12-39 | Intraseasonal Variability of the Equatorial Ionosphere Responses to the Madden-Julian Oscillation | Xu Zhou |
| 16:15 - 16:30 | PEM12-40 | D-region ionosphere response to fireballs and satellite reentries using OCTAVE VLF/LF transmitter signals | Hiroyo Ohya |
| 16:30 - 16:45 | PEM12-41 | Response of ionospheric F2-peak height and sea levels to the lunar gravitational force | Tsung-Yu Wu |
| 16:45 - 17:00 | PEM12-42 | Do long-term changes modify the ionospheric response to geomagnetic activity? | MARIA GLORIA TAN JUN RIOS |
| Presentation No | Title | Presenter |
|---|---|---|
| Poster Presentation May 25 PM3 | ||
| PEM12-P01 | Investigation on latitudinal variation and north-south difference in polar mesospheric cloud heights based on 9-year PMC data by Himawari-8/9 | Tsubasa Shibuya |
| PEM12-P02 | Initial analysis of mesospheric gravity waves observed in Tromsø, Norway, on December 17, 2014, using an OH-airglow imager and a sodium lidar. | Eido Tsuchida |
| PEM12-P03 | Investigation on relationships among polar mesospheric cloud, temperature, and water vapor based on simultaneous observations by Himawari-8/AHI and Aura/MLS | Sakai Masashige |
| PEM12-P04 | NLC Imager for observations of noctilucent clouds in the high latitude region. -Observation plan in Kiruna, Sweden. | Akiho Endo |
| PEM12-P05 | Research on polar mesospheric cloud response to the water vapor injection by the 2022 Tonga eruption based on Himawari-8/9 observations | Yosuke Moriyama |
| PEM12-P06 | Statistical study of thermosphere-ionospheric Ca+ by lidar observation at Mohe (122.3ºE, 53.5ºN) | JING JIAO |
| PEM12-P07 | Simultaneous and common-volume observation of Ca and Ca+ with a new resonance scattering lidar | Mitsumu K. Ejiri |
| PEM12-P08 | Visualization of dynamical characteristics of sporadic E using maritime radio waves from automatic identification system | Yu Sumimoto |
| PEM12-P09 | Statistical analysis of the impact of sudden stratospheric warming on the sporadic E layer by ionosonde observations | Tomoki Maeda |
| PEM12-P10 | Statistical Relationship between Medium-Scale Traveling Ionospheric Disturbance and Sporadic E-layer: Geomagnetic Conjugate Observations by GPS Network and Ionosondes | Kazui Watanabe |
| PEM12-P11 | Effects of Wake on Electron Temperature and Density Measurements by Langmuir Probe Onboard Sounding Rockets | Ueda Yosuke |
| PEM12-P12 | Effects of Climate Change on Es formation simulated by GAIA | Farhan Naufal Rifqi |
| PEM12-P13 | Statistical study of latitudinal dependence of medium-scale traveling ionospheric disturbance : GPS observation in Japan | Naito Tsubasa |
| PEM12-P14 | Morphology of Nighttime MSTIDs Over China | Donghe Zhang |
| PEM12-P15 | Initial results of SDI-3D thermospheric measurements in 2024-2025 winter | Shin-ichiro Oyama |
| PEM12-P16 | Variation of high-latitude plasma depression region during a moderate magnetic storm using the polar variable GAIA | Chihiro Tao |
| PEM12-P17 | Variations of OH airglow intensity before and after energetic particle precipitation events | Satoshi Ishii |
| PEM12-P18 | Possible generation mechanism of plasma bubbles during a geomagnetic storm in April 2023 based on satellite observations and simulations | Takuya Sori |
| PEM12-P19 | Study of the airglow responses to geomagnetic storms based on long-term ground-based observations in Japan: Comparison with the TIMED satellite and ionosondes | Yuto Hotta |
| PEM12-P20 | How do Space Hurricanes Disturb the Polar Thermosphere: A Statistical Survey | Zhi-Feng Xiu |
| PEM12-P21 | Anomalous daytime downward plasma drift at the dip equator observed by ICON satellite | Huixin Liu |
| PEM12-P22 | The meridional currents of the equatorial electrojet as seen from ground magnetic data through principal component analysis | Xzann Garry Vincent Miranda Topacio |
| PEM12-P23 | Response of evening EEJ/CEJ to pre-reversal enhancement | Akihiro Kato |
| PEM12-P24 | Annual and Seasonal Variations of Equatorial Plasma Density Irregularities Observed by Advanced Ionospheric Probe Onboard FORMOSAT-5 Satellite | Chi-Kuang Chao |
| PEM12-P25 | Localization and Classification of Gravity Wave Events from VIIRS Day/Night Band Satellite Imagery Using Machine Learning Techniques | Yuta Hozumi |
| PEM12-P26 | Development of a Compact HF Doppler Receiver Using a Software-Defined Radio Receiver | Koichi Noguchi |
| PEM12-P27 | Observation of Es using the range measurement function of the HF Doppler observation system | Kenro Nozaki |
| PEM12-P28 | Oscillation in the D-region ionosphere induced by X-class solar flares in May 2024 using OCTAVE/AVON LF transmitter signals | Kubota Akane |
| PEM12-P29 | Impact of Increasing CO2 Concentration on Diurnal Tide with Zonal Wavenumber 1: Mesospheric Cooling Effects | Masaru Kogure |
| PEM12-P30 | Estimation of propagation paths and attenuation of HF radio waves treated as ordinary and extraordinary waves | Hiroyuki Nakata |
| PEM12-P31 | The MXD-2 rocket project to study dust in the mesosphere: preparation for analyzing collected samples | Yoshihiro Yokoyama |
| PEM12-P32 | Atmosphere-Ionosphere coupling due to dust storms | FU-YUAN CHANG |
| PEM12-P33 | Ionospheric response to solar flares – how fast does the disturbance propagate? | Maletckii Boris |
| PEM12-P34 | Analysis of Earthquake-Induced Ionospheric Plasma Disturbances: A Case Study of the 2024 Hualien Earthquake, Taiwan | Chia-Hung Chen |
| PEM12-P35 | Preliminary Measurement Results for CIP on PEARL-1C CubeSat | Wei-Rong Huang |
| PEM12-P36 | Space Weather Mission of PEARL-1A and PEARL-1B CubeSats | Yun-Ru Chen |