Plasma-neutral gas interactions in various space environments: Assessment beyond simplified approximations as a Voyage 2050 theme

Masatoshi Yamauchi; Johan De Keyser; George Parks; Shin ichiro Oyama; Peter Wurz; Takumi Abe; Arnaud Beth; Ioannis A. Daglis; Iannis Dandouras; Malcolm Dunlop; Pierre Henri; Nickolay Ivchenko; Esa Kallio; Harald Kucharek; Yong C.M. Liu; Ingrid Mann; Octav Marghitu; Georgios Nicolaou; Zhaojin Rong; Takeshi Sakanoi; Joachim Saur; Manabu Shimoyama; Satoshi Taguchi; Feng Tian; Takuo Tsuda; Bruce Tsurutani; Drew Turner; Thomas Ulich; Andrew Yau; Ichiro Yoshikawa

doi:10.1007/s10686-022-09846-9

Plasma-neutral gas interactions in various space environments: Assessment beyond simplified approximations as a Voyage 2050 theme

Masatoshi Yamauchi, Johan De Keyser, George Parks, Shin ichiro Oyama, Peter Wurz, Takumi Abe, Arnaud Beth, Ioannis A. Daglis, Iannis Dandouras, Malcolm Dunlop, Pierre Henri, Nickolay Ivchenko, Esa Kallio, Harald Kucharek, Yong C.M. Liu, Ingrid Mann, Octav Marghitu, Georgios Nicolaou, Zhaojin Rong, Takeshi SakanoiJoachim Saur, Manabu Shimoyama, Satoshi Taguchi, Feng Tian, Takuo Tsuda, Bruce Tsurutani, Drew Turner, Thomas Ulich, Andrew Yau, Ichiro Yoshikawa

SCI - Planetary Plasma and Atmospheric Research Center (PPARC)

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

In the White Paper, submitted in response to the European Space Agency (ESA) Voyage 2050 Call, we present the importance of advancing our knowledge of plasma-neutral gas interactions, and of deepening our understanding of the partially ionized environments that are ubiquitous in the upper atmospheres of planets and moons, and elsewhere in space. In future space missions, the above task requires addressing the following fundamental questions: (A) How and by how much do plasma-neutral gas interactions influence the re-distribution of externally provided energy to the composing species? (B) How and by how much do plasma-neutral gas interactions contribute toward the growth of heavy complex molecules and biomolecules? Answering these questions is an absolute prerequisite for addressing the long-standing questions of atmospheric escape, the origin of biomolecules, and their role in the evolution of planets, moons, or comets, under the influence of energy sources in the form of electromagnetic and corpuscular radiation, because low-energy ion-neutral cross-sections in space cannot be reproduced quantitatively in laboratories for conditions of satisfying, particularly, (1) low-temperatures, (2) tenuous or strong gradients or layered media, and (3) in low-gravity plasma. Measurements with a minimum core instrument package (< 15 kg) can be used to perform such investigations in many different conditions and should be included in all deep-space missions. These investigations, if specific ranges of background parameters are considered, can also be pursued for Earth, Mars, and Venus.

Original language	English
Pages (from-to)	521-559
Number of pages	39
Journal	Experimental Astronomy
Volume	54
Issue number	2-3
DOIs	https://doi.org/10.1007/s10686-022-09846-9
Publication status	Published - 2022 Dec

Keywords

Collision cross-section
Future missions
Low-energy
Neutral gas
Plasma
Voyage 2050

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1007/s10686-022-09846-9

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Yamauchi, M., De Keyser, J., Parks, G., Oyama, S. I., Wurz, P., Abe, T., Beth, A., Daglis, I. A., Dandouras, I., Dunlop, M., Henri, P., Ivchenko, N., Kallio, E., Kucharek, H., Liu, Y. C. M., Mann, I., Marghitu, O., Nicolaou, G., Rong, Z., ... Yoshikawa, I. (2022). Plasma-neutral gas interactions in various space environments: Assessment beyond simplified approximations as a Voyage 2050 theme. Experimental Astronomy, 54(2-3), 521-559. https://doi.org/10.1007/s10686-022-09846-9

Yamauchi, M, De Keyser, J, Parks, G, Oyama, SI, Wurz, P, Abe, T, Beth, A, Daglis, IA, Dandouras, I, Dunlop, M, Henri, P, Ivchenko, N, Kallio, E, Kucharek, H, Liu, YCM, Mann, I, Marghitu, O, Nicolaou, G, Rong, Z, Sakanoi, T, Saur, J, Shimoyama, M, Taguchi, S, Tian, F, Tsuda, T, Tsurutani, B, Turner, D, Ulich, T, Yau, A & Yoshikawa, I 2022, 'Plasma-neutral gas interactions in various space environments: Assessment beyond simplified approximations as a Voyage 2050 theme', Experimental Astronomy, vol. 54, no. 2-3, pp. 521-559. https://doi.org/10.1007/s10686-022-09846-9

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title = "Plasma-neutral gas interactions in various space environments: Assessment beyond simplified approximations as a Voyage 2050 theme",

abstract = "In the White Paper, submitted in response to the European Space Agency (ESA) Voyage 2050 Call, we present the importance of advancing our knowledge of plasma-neutral gas interactions, and of deepening our understanding of the partially ionized environments that are ubiquitous in the upper atmospheres of planets and moons, and elsewhere in space. In future space missions, the above task requires addressing the following fundamental questions: (A) How and by how much do plasma-neutral gas interactions influence the re-distribution of externally provided energy to the composing species? (B) How and by how much do plasma-neutral gas interactions contribute toward the growth of heavy complex molecules and biomolecules? Answering these questions is an absolute prerequisite for addressing the long-standing questions of atmospheric escape, the origin of biomolecules, and their role in the evolution of planets, moons, or comets, under the influence of energy sources in the form of electromagnetic and corpuscular radiation, because low-energy ion-neutral cross-sections in space cannot be reproduced quantitatively in laboratories for conditions of satisfying, particularly, (1) low-temperatures, (2) tenuous or strong gradients or layered media, and (3) in low-gravity plasma. Measurements with a minimum core instrument package (< 15 kg) can be used to perform such investigations in many different conditions and should be included in all deep-space missions. These investigations, if specific ranges of background parameters are considered, can also be pursued for Earth, Mars, and Venus.",

keywords = "Collision cross-section, Future missions, Low-energy, Neutral gas, Plasma, Voyage 2050",

author = "Masatoshi Yamauchi and {De Keyser}, Johan and George Parks and Oyama, {Shin ichiro} and Peter Wurz and Takumi Abe and Arnaud Beth and Daglis, {Ioannis A.} and Iannis Dandouras and Malcolm Dunlop and Pierre Henri and Nickolay Ivchenko and Esa Kallio and Harald Kucharek and Liu, {Yong C.M.} and Ingrid Mann and Octav Marghitu and Georgios Nicolaou and Zhaojin Rong and Takeshi Sakanoi and Joachim Saur and Manabu Shimoyama and Satoshi Taguchi and Feng Tian and Takuo Tsuda and Bruce Tsurutani and Drew Turner and Thomas Ulich and Andrew Yau and Ichiro Yoshikawa",

note = "Funding Information: We thank all the support and suggestions from the other team members and supporters (in alphabet order in terms of country): Helmut Lammer (IWF, Graz, Austria), Romain Maggiolo, Fabien Darrouzet, and Herv{\'e} Lamy (Royal Belgian Institute for Space Aeronomy, Brussels, Belgium), Kun Li (Sun Yat-Sen U., Zhuhai, China), Benjamin Grison (Institute of Atmospheric Physics, CAS, Prague, Czech Republic), Eija Tanskanen (Aalto University, Espoo, Finland), Christian Mazelle, Henri Reme, Dominique Toublanc, Philippe Garnier, and Frederic Pitout (IRAP, Toulouse, France), Markus Fraenz, Elena Kronberg (MPS, G{\"o}ttingen, Germany), Matthias Foerster, Yuri Shprits (GFZ, Potsdam, Germany), Despina Hatzidimitriou, Apostolos Mastichiadis, Antonis Paschalis, Kanaris Tsinganos, and Nektarios Vlahakis (National and Kapodistrian U. Athens, Greece), Georgios Balasis (National Observatory of Athens, Greece), Nick Sergis (Academy of Athens, Greece), Anna Milillo (INAF/IAPS, Rome, Italy), Masafumi Hirahara (Nagoya U., Japan), Kunihiro Keika (U. Tokyo, Japan), Yasunobu Ogawa (NIPR, Tachikawa, Japan), Adrian Blagau, and Mircea Ciobanu (Institute for Space Sciences, Bucharest, Romania), Tomas Karlsson (KTH, Stockholm, Sweden), Evgenia Belova, Urban Braendstroem, Peter Dalin, Hans Nilsson, Johan Kero, Tima Sergienko, and Xiao-Dong Wang (IRF, Kiruna, Sweden), Michiko Morooka (IRF, Uppsala, Sweden), Magnus Wik, Peter Wintoft (IRF, Lund, Sweden), Carl-Fredrik Enell, Ingemar H{\"a}ggstr{\"o}m, Craig Heinselman, Anders Tjulin (EISCAT Head Office, Kiruna, Sweden), Martin Rubin and Audrey Vorburger (University of Bern, Switzerland), Dhiren Kataria, (UCL/MSSL, London, UK), Yulia Bogdanova (STFC, Swindon, UK), Michail Balikhin (U. Sheffield, UK), and Vladimir Airapetian (NASA/GSFC, Greenbelt, USA) Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1007/s10686-022-09846-9",

language = "English",

volume = "54",

pages = "521--559",

journal = "Experimental Astronomy",

issn = "0922-6435",

publisher = "Springer Netherlands",

number = "2-3",

}

TY - JOUR

T1 - Plasma-neutral gas interactions in various space environments

T2 - Assessment beyond simplified approximations as a Voyage 2050 theme

AU - Yamauchi, Masatoshi

AU - De Keyser, Johan

AU - Parks, George

AU - Oyama, Shin ichiro

AU - Wurz, Peter

AU - Abe, Takumi

AU - Beth, Arnaud

AU - Daglis, Ioannis A.

AU - Dandouras, Iannis

AU - Dunlop, Malcolm

AU - Henri, Pierre

AU - Ivchenko, Nickolay

AU - Kallio, Esa

AU - Kucharek, Harald

AU - Liu, Yong C.M.

AU - Mann, Ingrid

AU - Marghitu, Octav

AU - Nicolaou, Georgios

AU - Rong, Zhaojin

AU - Sakanoi, Takeshi

AU - Saur, Joachim

AU - Shimoyama, Manabu

AU - Taguchi, Satoshi

AU - Tian, Feng

AU - Tsuda, Takuo

AU - Tsurutani, Bruce

AU - Turner, Drew

AU - Ulich, Thomas

AU - Yau, Andrew

AU - Yoshikawa, Ichiro

N1 - Funding Information: We thank all the support and suggestions from the other team members and supporters (in alphabet order in terms of country): Helmut Lammer (IWF, Graz, Austria), Romain Maggiolo, Fabien Darrouzet, and Hervé Lamy (Royal Belgian Institute for Space Aeronomy, Brussels, Belgium), Kun Li (Sun Yat-Sen U., Zhuhai, China), Benjamin Grison (Institute of Atmospheric Physics, CAS, Prague, Czech Republic), Eija Tanskanen (Aalto University, Espoo, Finland), Christian Mazelle, Henri Reme, Dominique Toublanc, Philippe Garnier, and Frederic Pitout (IRAP, Toulouse, France), Markus Fraenz, Elena Kronberg (MPS, Göttingen, Germany), Matthias Foerster, Yuri Shprits (GFZ, Potsdam, Germany), Despina Hatzidimitriou, Apostolos Mastichiadis, Antonis Paschalis, Kanaris Tsinganos, and Nektarios Vlahakis (National and Kapodistrian U. Athens, Greece), Georgios Balasis (National Observatory of Athens, Greece), Nick Sergis (Academy of Athens, Greece), Anna Milillo (INAF/IAPS, Rome, Italy), Masafumi Hirahara (Nagoya U., Japan), Kunihiro Keika (U. Tokyo, Japan), Yasunobu Ogawa (NIPR, Tachikawa, Japan), Adrian Blagau, and Mircea Ciobanu (Institute for Space Sciences, Bucharest, Romania), Tomas Karlsson (KTH, Stockholm, Sweden), Evgenia Belova, Urban Braendstroem, Peter Dalin, Hans Nilsson, Johan Kero, Tima Sergienko, and Xiao-Dong Wang (IRF, Kiruna, Sweden), Michiko Morooka (IRF, Uppsala, Sweden), Magnus Wik, Peter Wintoft (IRF, Lund, Sweden), Carl-Fredrik Enell, Ingemar Häggström, Craig Heinselman, Anders Tjulin (EISCAT Head Office, Kiruna, Sweden), Martin Rubin and Audrey Vorburger (University of Bern, Switzerland), Dhiren Kataria, (UCL/MSSL, London, UK), Yulia Bogdanova (STFC, Swindon, UK), Michail Balikhin (U. Sheffield, UK), and Vladimir Airapetian (NASA/GSFC, Greenbelt, USA) Publisher Copyright: © 2022, The Author(s).

PY - 2022/12

Y1 - 2022/12

N2 - In the White Paper, submitted in response to the European Space Agency (ESA) Voyage 2050 Call, we present the importance of advancing our knowledge of plasma-neutral gas interactions, and of deepening our understanding of the partially ionized environments that are ubiquitous in the upper atmospheres of planets and moons, and elsewhere in space. In future space missions, the above task requires addressing the following fundamental questions: (A) How and by how much do plasma-neutral gas interactions influence the re-distribution of externally provided energy to the composing species? (B) How and by how much do plasma-neutral gas interactions contribute toward the growth of heavy complex molecules and biomolecules? Answering these questions is an absolute prerequisite for addressing the long-standing questions of atmospheric escape, the origin of biomolecules, and their role in the evolution of planets, moons, or comets, under the influence of energy sources in the form of electromagnetic and corpuscular radiation, because low-energy ion-neutral cross-sections in space cannot be reproduced quantitatively in laboratories for conditions of satisfying, particularly, (1) low-temperatures, (2) tenuous or strong gradients or layered media, and (3) in low-gravity plasma. Measurements with a minimum core instrument package (< 15 kg) can be used to perform such investigations in many different conditions and should be included in all deep-space missions. These investigations, if specific ranges of background parameters are considered, can also be pursued for Earth, Mars, and Venus.

AB - In the White Paper, submitted in response to the European Space Agency (ESA) Voyage 2050 Call, we present the importance of advancing our knowledge of plasma-neutral gas interactions, and of deepening our understanding of the partially ionized environments that are ubiquitous in the upper atmospheres of planets and moons, and elsewhere in space. In future space missions, the above task requires addressing the following fundamental questions: (A) How and by how much do plasma-neutral gas interactions influence the re-distribution of externally provided energy to the composing species? (B) How and by how much do plasma-neutral gas interactions contribute toward the growth of heavy complex molecules and biomolecules? Answering these questions is an absolute prerequisite for addressing the long-standing questions of atmospheric escape, the origin of biomolecules, and their role in the evolution of planets, moons, or comets, under the influence of energy sources in the form of electromagnetic and corpuscular radiation, because low-energy ion-neutral cross-sections in space cannot be reproduced quantitatively in laboratories for conditions of satisfying, particularly, (1) low-temperatures, (2) tenuous or strong gradients or layered media, and (3) in low-gravity plasma. Measurements with a minimum core instrument package (< 15 kg) can be used to perform such investigations in many different conditions and should be included in all deep-space missions. These investigations, if specific ranges of background parameters are considered, can also be pursued for Earth, Mars, and Venus.

KW - Collision cross-section

KW - Future missions

KW - Low-energy

KW - Neutral gas

KW - Plasma

KW - Voyage 2050

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JO - Experimental Astronomy

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ER -

Plasma-neutral gas interactions in various space environments: Assessment beyond simplified approximations as a Voyage 2050 theme

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