JpGU Meeting 2025
Session outline| Space and Planetary Sciences (P) | ||
|---|---|---|
| Session Sub-category | Solar-Terrestrial Sciences, Space Electromagnetism & Space Environment(EM) | |
| Session ID | P-EM14 | |
| Title | Study of coupling processes in solar-terrestrial system | |
| Short Title | Coupling in solar-terrestrial system | |
| Main Convener | Name | Mamoru Yamamoto |
| Affiliation | Research Institute for Sustainable Humanosphere, Kyoto University | |
| Co-Convener 1 | Name | Yasunobu Ogawa |
| Affiliation | National Institute of Polar Research | |
| Co-Convener 2 | Name | Satonori Nozawa |
| Affiliation | Institute for Space-Earth Environmental Research, Nagoya University | |
| Co-Convener 3 | Name | Akimasa Yoshikawa |
| Affiliation | Department of Earth and Planetary Sciences, Kyushu University | |
| Session Language |
E |
|
| Scope |
Solar-terrestrial physics is the research field focused on understanding the coupling processes between the Sun and Earth quantitatively. The research area is vast, and combining multiple observation methods and modeling is essential. We have proposed a large-scale project called "Study of coupling processes in the solar-terrestrial system" to establish a comprehensive observation system from the solar wind to the Earth that includes the Equatorial MU radar, EISCAT_3D radar, a next-generation solar wind observation system, and a global observation network. This initiative will enable long-term monitoring of the solar wind speed, the magnetosphere variations in the polar regions, the vertical coupling of the atmosphere, and variations of the atmosphere/ionosphere in all latitudes. The IUGONET database allows for integrated data handling and is widely utilized in this field. In this session, we solicit papers on solar-terrestrial physics and atmospheric science, namely, ground- and satellite-based observations, solar wind, space weather, models, and databases. By collaborating with participants from Japan and around the world, we will discuss trends and directions in solar-terrestrial physics and deepen consideration of future plans. |
|
| Presentation Format | Oral and Poster presentation | |
| Time | Presentation No | Title | Presenter |
|---|---|---|---|
| Oral Presentation May 28 AM1 | |||
| 9:00 - 9:15 | PEM14-01 | Large-scale research project "Study of coupling processes in the solar-terrestrial system" | Mamoru Yamamoto |
| 9:15 - 9:30 | PEM14-02 | Ground network, satellite, and modeling coordination based on the PBASE program | Kazuo Shiokawa |
| 9:30 - 9:45 | PEM14-03 | Current status of IUGONET data analysis system for promotion of studies of solar-terrestrial physics | Atsuki Shinbori |
| 9:45 - 10:00 | PEM14-04 | SuperDARN - today and future | Nozomu Nishitani |
| 10:00 - 10:15 | PEM14-05 | Recent activities and upcoming plans of MAGDAS project | Shuji Abe |
| 10:15 - 10:30 | PEM14-06 | Next generation solar wind observation system: project and science updates | Kazumasa Iwai |
| Oral Presentation May 28 AM2 | |||
| 10:45 - 11:00 | PEM14-07 | Interaction between magnetic field topology and plasma dynamics of the solar wind-magnetosphere system in the northward IMF condition | Shigeru Fujita |
| 11:00 - 11:15 | PEM14-08 | Global Electric Field Response to the Development of High-Latitude Currents During Substorms | Akimasa Yoshikawa |
| 11:15 - 11:30 | PEM14-09 | Geomagnetic Responses to Solar Eclipses: Observations from the 2023 and 2024 Solar Eclipses in the Continental United States | Peter J Chi |
| 11:30 - 11:45 | PEM14-10 | Occurrence property of spectral resonance structures with frequency separation of 0.2 Hz detected at Kawatabi, Miyagi, Japan | Tomoko Nakagawa |
| 11:45 - 12:00 | PEM14-11 | High-Latitude Ionospheric Electron Density Depletion in Response to Negative Solar Wind Pressure Pulses | Geetashree KAKOTI |
| 12:00 - 12:15 | PEM14-12 | Response of the sodium atom density to auroral particle precipitation | Satonori Nozawa |
| Oral Presentation May 28 PM1 | |||
| 13:45 - 14:00 | PEM14-13 | Two Types of Plasma Flow Oscillations Observed at Midlatitude Topside Ionosphere | Shin-Yi Su |
| 14:00 - 14:15 | PEM14-14 | Equatorial Plasma Bubble detected by L-Band Synthetic Aperture Radar and GNSS-TEC Observations in Indonesian Region | Ihsan Naufal Muafiry |
| 14:15 - 14:30 | PEM14-15 | Super plasma bubbles and associated structures during geomagnetic storms | Wenjie Sun |
| 14:30 - 14:45 | PEM14-16 | Solar cycle inside the near-surface climate of the Tibetan Plateau | Changgui Lin |
| 14:45 - 15:00 | PEM14-17 | Structures of ionospheric disturbances by using improved GNSS-based 3-D tomography | Susumu Saito |
| 15:00 - 15:15 | PEM14-18 | Can deep learning more effectively reveal the link between the interplanetary environment and thermospheric mass density variations? | Wenbo Li |
| Presentation No | Title | Presenter |
|---|---|---|
| Poster Presentation May 28 PM3 | ||
| PEM14-P01 | A Statistical Survey of Polar Cap Cold and Hot Patches in the Southern Hemisphere Using a DMSP Satellite | Duan Zhang |
| PEM14-P02 | Fundamental development of the time-delayed multi-beam method for an upgrade of the Tromsø sodium lidar | Kota Sato |
| PEM14-P03 | Resonance-scattering Ca/Ca+ lidar precisely observing the upper atmosphere: simultaneous observation of Ca and Ca+ layers and measurement of Ca+ temperature | Masayuki Katsuragawa |
| PEM14-P04 | High resolution mesopause region wind observations based on common-volume MF radar meteor echo measurements in the Arctic Norway | Masaki Tsutsumi |
| PEM14-P05 | Estimation of Horizontal Wind Speed from Gravity Wave Structures in Airglow Images | Shin Suzuki |
| PEM14-P06 | A current stage of a Na lidar development for daytime/thermospheric observations with a magneto-optical filter | Takuya Kawahara |
| PEM14-P07 | Development of a mechanical cooled cold-load for calibration of mm-wave spectral intensity and plan to resume the observation in Tromsø | Akira Mizuno |
| PEM14-P08 | Connection of the Magnetic Field between the Sun and the Earth | Minami Yoshida |
| PEM14-P09 | Statistical Studies of Large-scale Field-aligned Currents based on FY-3E Observations | Jie Ren |
| PEM14-P10 | SuperDARN Syowa SENSU radars status report during JARE65 2024-2025 season and its long-term future plan | Akira Sessai Yukimatu |
| PEM14-P11 | Variations in the Arctic upper atmosphere since the early 20th century: Relation to Arctic surface warming and cooling | Yasunobu Ogawa |
| PEM14-P12 | Automatic detection of spread F using machine learning and its applications | Kentaro Haruna |
| PEM14-P13 | Long-term Statistical Analysis of Shigaraki Ionosonde Observations Using Machine Learning Models | Mitsuru Terauchi |
| PEM14-P14 | Simulation Study of Ionospheric Disturbances Caused by Hunga Tonga Volcanic Eruption | Tatsuhiro Yokoyama |
| PEM14-P15 | Study of thermospheric density from orbit variation of STARLINK satellites | Mamoru Yamamoto |
| PEM14-P16 | Development of a Real-Time Ionospheric Scintillation Monitoring System Using SDR | Akiko Fujimoto |
| PEM14-P17 | Recalibration of ionogram virtual height and scaled parameters obtained by NICT's ionosonde observation | Michi Nishioka |
| PEM14-P18 | Development of SEALION Equatorial Plasma Bubble Alert and Data Portal | Septi Perwitasari |
| PEM14-P19 | Impact of plasma bubble on accuracy and integrity of air navigation around Ishigaki Island | Toru Takahashi |
| PEM14-P20 | Developments in Fault-Agnostic Earthquake Modeling and Its Relations with the Sun and the Moon | Matheus Henrique Junqueira Saldanha |