Space and Planetary Sciences (P) | ||
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Session Sub-category | Complex & General(CG) | |
Session ID | P-CG21 | |
Title | Future Missions and instrumentation for space and planetary science | |
Short Title | Future missions for space science | |
Main Convener | Name | Mitsunori Ozaki |
Affiliation | Faculty of Electrical and Computer Engineering, Institute of Science and Engineering, Kanazawa University | |
Co-Convener 1 | Name | Satoshi Kasahara |
Affiliation | The university of Tokyo | |
Co-Convener 2 | Name | Shingo Kameda |
Affiliation | School of Science, Rikkyo University | |
Co-Convener 3 | Name | Kazuo Yoshioka |
Affiliation | Graduate School of frontier Science, The University of Tokyo | |
Session Language | E | |
Scope | Not only national space agencies but some universities and even companies in the world are now leading a number of space science and exploration missions and also energetically initiating new research activities for satellite and rocket developments and international collaborations in these days because the Earth observations from the space and the space explorations could be achieved much easier than a few decades ago. The deployment to the space, which itself is not purely a scientific purpose but one of methods for better sciences, is vigorously motivating the technical innovation and the educational development. For successful space missions, it is also crucial to research and develop aim-oriented on-board instruments, and the fundamental research and development of observational instrumentation with future perspectives could totally lead space missions in some case. Detailed investigation and evaluation on various on-board instruments are needed during their proposals, selections, and fabrications in order to promote the missions, and inevitably we have to make multi-sided arrangements and evolution at every process and aspect of any type of space missions, independently of their mission sizes. In this session, we focus on these comprehensive research activities in the space and astronomical missions, including the mission integrations and the individual instrumental developments, and we also call many presentations showing the uniqueness and renovation regarding the mission strategy and methodology, and the status and latest results in the related state-of-the-art researches and developments, which would provide all of researchers and developers with invaluable opportunities for active discussion, information sharing, and collaboration toward the realization of more missions for more fruitful space sciences and explorations in nearer future. | |
Presentation Format | Oral and Poster presentation | |
Invited Authors | Yuichiro Ezoe (Tokyo Metropolitan University) Fouad Sahraoui (LPP CNRS Ecole Polytechnique) Makiko Ohtake (Department of Planetary Science, Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency) Shinnaka Yoshiharu (Kyoto Sangyo University) Noriyuki Narukage (National Astronomical Observatory of Japan) Koji Wada (Planetary Exploration Research Center, Chiba Institute of Technology) |
Time | Presentation No | Title | Presenter | Abstract |
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Oral Presentation May 26 AM1 | ||||
09:00 - 09:20 | PCG21-01 | Current status and instrument development plan for future lunar exploration missions | Makiko Ohtake | |
09:20 - 09:35 | PCG21-02 | Development of a Neutral Particle TOF-MS for Future Solar System Explorations | Daichi Fukuyama | |
09:35 - 09:50 | PCG21-03 | Development of Orbitrap Mass Spectrometer for in-situ measurements in solar system explorations | Oya Kawashima | |
09:50 - 10:05 | PCG21-04 | A high-voltage pulsed power supply for on-site mass spectrometry in future solar system explorations | Shoichiro Yokota | |
10:05 - 10:20 | PCG21-05 | Development of DESTINY+ Dust Analyzer and its expected science return | Takayuki Hirai | |
Oral Presentation May 26 AM2 | ||||
10:45 - 11:05 | PCG21-06 | Satellite mission: PhoENiX (Physics of Energetic and Non-thermal plasmas in the X (= magnetic reconnection) region) | Noriyuki Narukage | |
11:05 - 11:20 | PCG21-07 | Development of ion drift velocity analyzer for sounding rocket and low-altitude satellite | Takumi Abe | |
11:20 - 11:35 | PCG21-08 | SS-520-3 Sounding Rocket Experiment Targeting the Ion Outflow in the Polar Cusp / Aurora | Yoshifumi Saito | |
11:35 - 11:50 | PCG21-09 | Development of the chip implemented as high-speed current detection circuits for particle sensors | Motoyuki Kikukawa | |
11:50 - 12:10 | PCG21-10 | GEO-X (GEOspace X-ray imager) : Imaging the dayside solar wind-terrestrial magnetosphere interaction | Yuichiro Ezoe | |
Oral Presentation May 26 PM1 | ||||
13:45 - 14:05 | PCG21-11 | Debye: a multi-spacecraft mission to solve the electron energization problem in the solar wind | Fouad Sahraoui | |
14:05 - 14:25 | PCG21-12 | Comet Interceptor mission to a dynamically new comet | Shinnaka Yoshiharu | |
14:25 - 14:45 | PCG21-13 | The concept of AI3 and impactors | Koji Wada | |
14:45 - 15:00 | PCG21-14 | Observational Techniques for Energy Transport Verification in Space Plasmas and Waves Developed in the FACTORS Mission | Masafumi Hirahara | |
15:00 - 15:15 | PCG21-15 | Current status of Life Detection Microscope (LDM) for Mars surface exploration | Yoshitaka Yoshimura | |
Presentation No | Title | Presenter | Abstract |
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Poster Presentation May 26 PM2 | |||
PCG21-P01 | Visible and ultraviolet imagers for auroral and airglow observations by FACTORS - a future satellite mission for understanding the coupling and transportation processes in the upper atmosphere | Takeshi Sakanoi | |
PCG21-P02 | Spatio-temporal analysis of flash aurora using Convolutional Neural Network | Toki Genda | |
PCG21-P03 | Study on the pulse noise removal technique for Pc1 geomagnetic pulsations on the ground by signal processing | Fumiya Komase | |
PCG21-P04 | Application of magneto-impedance sensor to geomagnetic field measurements | Masahito Nose | |
PCG21-P05 | Observation of the Ionospheric Currents by the CubeSat at the Low and Middle Latitude | Kentarou Kitamura | |
PCG21-P06 | Basic study on miniaturization of electric field instrument for plasma wave observations by ASIC technology | Yuya Tokunaga | |
PCG21-P07 | Evaluation of radiation tolerance of electronics parts used for the ultra-small mission | Riku Katsuse | |
PCG21-P08 | A method to quantitatively evaluate Non-evaporable-getter pump for use in space science mission | Seiya Nishimura | |
PCG21-P09 | Interpretation on slight asymmetry of analyzer characteristics of MIA onboard the Mio by means of a model calculation of 3-D potential distribution | Wataru Miyake | |
PCG21-P10 | Construction of impact testing machine for small satellites and evaluation of mechanical resistance of MCPs by the impact test | Junya Fukuba | |
PCG21-P11 | Innovative design of double-shell type energy analyzer for simultaneous electron and ion measurements in space | Tomomi Takei | |
PCG21-P12 | Microsatellite Development and Education of Space Science and Technology at Kanazawa University | Tomohiko Imachi | |
PCG21-P13 | Attitude Control System for Kanazawa-SAT3 Microsatellite | Tomohiko Imachi | |
PCG21-P14 | Communications System and Antennas for Kanazawa-SAT3 Microsatellite | Tomohiko Imachi | |
PCG21-P15 | Development of micrometeoroid impact sensor within a multi-layered insulation (CLOTH) onboard 6U deep-space explorer EQUULEUS | Takayuki Hirai | |
PCG21-P16 | Breadboard model of asteroid tracking system for DESTINY+ mission | Peng Hong | |
PCG21-P17 | Development of telescopic camera (TENGOO) performance evaluation device in MMX | Hiroki Kato | |
PCG21-P18 | Observation Plans in the Cruising-Phase of the Solar Power Sail: OKEANOS | Takahiro Iwata |