Effect of Meteoric Ions on Ionospheric Conductance at Jupiter

Yuki Nakamura; Koichiro Terada; Chihiro Tao; Naoki Terada; Yasumasa Kasaba; François Leblanc; Hajime Kita; Aoi Nakamizo; Akimasa Yoshikawa; Shinichi Ohtani; Fuminori Tsuchiya; Masato Kagitani; Takeshi Sakanoi; Go Murakami; Kazuo Yoshioka; Tomoki Kimura; Atsushi Yamazaki; Ichiro Yoshikawa

doi:10.1029/2022JA030312

Effect of Meteoric Ions on Ionospheric Conductance at Jupiter

Yuki Nakamura, Koichiro Terada, Chihiro Tao, Naoki Terada, Yasumasa Kasaba, François Leblanc, Hajime Kita, Aoi Nakamizo, Akimasa Yoshikawa, Shinichi Ohtani, Fuminori Tsuchiya, Masato Kagitani, Takeshi Sakanoi, Go Murakami, Kazuo Yoshioka, Tomoki Kimura, Atsushi Yamazaki, Ichiro Yoshikawa

Earth Planetary Fluid and Space Sciences

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

1 Citation (Scopus)

Abstract

Ionospheric Pedersen and Hall conductances play significant roles in electromagnetic coupling between the planetary ionosphere and magnetosphere. Several observations and models have suggested the existence of meteoric ions with interplanetary origins in the lower part of Jupiter’s ionosphere; however, no models have considered the contributions of meteoric ions to ionospheric conductance. This study is designed to evaluate the contribution of meteoric ions to ionospheric conductance by developing an ionospheric model combining a meteoroid ablation model and a photochemical model. We find that the largest contribution to Pedersen and Hall conductivities occurs in the meteoric ion layer at altitudes of 350–600 km due to the large concentration of meteoric ions resulting from their long lifetimes of more than 100 Jovian days. Pedersen and Hall conductances are enhanced by factors of 3 and 10, respectively, in the middle- and low-latitude and auroral regions when meteoric ions are included. The distribution of Pedersen and Hall conductances becomes axisymmetric in the middle- and low-latitude regions. Enhanced axisymmetric ionospheric conductance should impact magnetospheric plasma convection. The contribution of meteoric ions to the ionospheric conductance is expected to be important only on Jupiter in our solar system because of Jupiter’s intense magnetic and gravitational fields.

Original language	English
Article number	e2022JA030312
Journal	Journal of Geophysical Research: Space Physics
Volume	127
Issue number	3
DOIs	https://doi.org/10.1029/2022JA030312
Publication status	Published - Mar 2022

All Science Journal Classification (ASJC) codes

Space and Planetary Science
Geophysics

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10.1029/2022JA030312

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Nakamura, Y., Terada, K., Tao, C., Terada, N., Kasaba, Y., Leblanc, F., Kita, H., Nakamizo, A., Yoshikawa, A., Ohtani, S., Tsuchiya, F., Kagitani, M., Sakanoi, T., Murakami, G., Yoshioka, K., Kimura, T., Yamazaki, A., & Yoshikawa, I. (2022). Effect of Meteoric Ions on Ionospheric Conductance at Jupiter. Journal of Geophysical Research: Space Physics, 127(3), [e2022JA030312]. https://doi.org/10.1029/2022JA030312

Nakamura, Y, Terada, K, Tao, C, Terada, N, Kasaba, Y, Leblanc, F, Kita, H, Nakamizo, A, Yoshikawa, A, Ohtani, S, Tsuchiya, F, Kagitani, M, Sakanoi, T, Murakami, G, Yoshioka, K, Kimura, T, Yamazaki, A & Yoshikawa, I 2022, 'Effect of Meteoric Ions on Ionospheric Conductance at Jupiter', Journal of Geophysical Research: Space Physics, vol. 127, no. 3, e2022JA030312. https://doi.org/10.1029/2022JA030312

@article{fa765d14320f4835befe94abb30e7697,

title = "Effect of Meteoric Ions on Ionospheric Conductance at Jupiter",

abstract = "Ionospheric Pedersen and Hall conductances play significant roles in electromagnetic coupling between the planetary ionosphere and magnetosphere. Several observations and models have suggested the existence of meteoric ions with interplanetary origins in the lower part of Jupiter{\textquoteright}s ionosphere; however, no models have considered the contributions of meteoric ions to ionospheric conductance. This study is designed to evaluate the contribution of meteoric ions to ionospheric conductance by developing an ionospheric model combining a meteoroid ablation model and a photochemical model. We find that the largest contribution to Pedersen and Hall conductivities occurs in the meteoric ion layer at altitudes of 350–600 km due to the large concentration of meteoric ions resulting from their long lifetimes of more than 100 Jovian days. Pedersen and Hall conductances are enhanced by factors of 3 and 10, respectively, in the middle- and low-latitude and auroral regions when meteoric ions are included. The distribution of Pedersen and Hall conductances becomes axisymmetric in the middle- and low-latitude regions. Enhanced axisymmetric ionospheric conductance should impact magnetospheric plasma convection. The contribution of meteoric ions to the ionospheric conductance is expected to be important only on Jupiter in our solar system because of Jupiter{\textquoteright}s intense magnetic and gravitational fields.",

author = "Yuki Nakamura and Koichiro Terada and Chihiro Tao and Naoki Terada and Yasumasa Kasaba and Fran{\c c}ois Leblanc and Hajime Kita and Aoi Nakamizo and Akimasa Yoshikawa and Shinichi Ohtani and Fuminori Tsuchiya and Masato Kagitani and Takeshi Sakanoi and Go Murakami and Kazuo Yoshioka and Tomoki Kimura and Atsushi Yamazaki and Ichiro Yoshikawa",

note = "Funding Information: This work was supported by JSPS KAKENHI grant numbers JP18H05439 and JP20H00192. Work at NICT (Aoi Nakamizo), Kyushu University (Akimasa Yoshikawa), and JHU/APL (Shinichi Ohtani) was supported by JSPS KAKENHI Grant Number 20H01961. Work at the University of Tokyo (Kazuo Yoshioka) was supported by JSPS KAKENHI Grant Number 19H01948. Work at JHU/APL (Shinichi Ohtani) was support by National Science Foundation (NSF) grant 1502700. Y. Nakamura is supported by the International Joint Graduate Program in Earth and Environmental Sciences, Tohoku University (GP‐EES). Publisher Copyright: {\textcopyright} 2022. American Geophysical Union. All Rights Reserved.",

year = "2022",

month = mar,

doi = "10.1029/2022JA030312",

language = "English",

volume = "127",

journal = "Journal of Geophysical Research: Space Physics",

issn = "2169-9380",

number = "3",

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T1 - Effect of Meteoric Ions on Ionospheric Conductance at Jupiter

AU - Nakamura, Yuki

AU - Terada, Koichiro

AU - Tao, Chihiro

AU - Terada, Naoki

AU - Kasaba, Yasumasa

AU - Leblanc, François

AU - Kita, Hajime

AU - Nakamizo, Aoi

AU - Yoshikawa, Akimasa

AU - Ohtani, Shinichi

AU - Tsuchiya, Fuminori

AU - Kagitani, Masato

AU - Sakanoi, Takeshi

AU - Murakami, Go

AU - Yoshioka, Kazuo

AU - Kimura, Tomoki

AU - Yamazaki, Atsushi

AU - Yoshikawa, Ichiro

N1 - Funding Information: This work was supported by JSPS KAKENHI grant numbers JP18H05439 and JP20H00192. Work at NICT (Aoi Nakamizo), Kyushu University (Akimasa Yoshikawa), and JHU/APL (Shinichi Ohtani) was supported by JSPS KAKENHI Grant Number 20H01961. Work at the University of Tokyo (Kazuo Yoshioka) was supported by JSPS KAKENHI Grant Number 19H01948. Work at JHU/APL (Shinichi Ohtani) was support by National Science Foundation (NSF) grant 1502700. Y. Nakamura is supported by the International Joint Graduate Program in Earth and Environmental Sciences, Tohoku University (GP‐EES). Publisher Copyright: © 2022. American Geophysical Union. All Rights Reserved.

PY - 2022/3

Y1 - 2022/3

N2 - Ionospheric Pedersen and Hall conductances play significant roles in electromagnetic coupling between the planetary ionosphere and magnetosphere. Several observations and models have suggested the existence of meteoric ions with interplanetary origins in the lower part of Jupiter’s ionosphere; however, no models have considered the contributions of meteoric ions to ionospheric conductance. This study is designed to evaluate the contribution of meteoric ions to ionospheric conductance by developing an ionospheric model combining a meteoroid ablation model and a photochemical model. We find that the largest contribution to Pedersen and Hall conductivities occurs in the meteoric ion layer at altitudes of 350–600 km due to the large concentration of meteoric ions resulting from their long lifetimes of more than 100 Jovian days. Pedersen and Hall conductances are enhanced by factors of 3 and 10, respectively, in the middle- and low-latitude and auroral regions when meteoric ions are included. The distribution of Pedersen and Hall conductances becomes axisymmetric in the middle- and low-latitude regions. Enhanced axisymmetric ionospheric conductance should impact magnetospheric plasma convection. The contribution of meteoric ions to the ionospheric conductance is expected to be important only on Jupiter in our solar system because of Jupiter’s intense magnetic and gravitational fields.

AB - Ionospheric Pedersen and Hall conductances play significant roles in electromagnetic coupling between the planetary ionosphere and magnetosphere. Several observations and models have suggested the existence of meteoric ions with interplanetary origins in the lower part of Jupiter’s ionosphere; however, no models have considered the contributions of meteoric ions to ionospheric conductance. This study is designed to evaluate the contribution of meteoric ions to ionospheric conductance by developing an ionospheric model combining a meteoroid ablation model and a photochemical model. We find that the largest contribution to Pedersen and Hall conductivities occurs in the meteoric ion layer at altitudes of 350–600 km due to the large concentration of meteoric ions resulting from their long lifetimes of more than 100 Jovian days. Pedersen and Hall conductances are enhanced by factors of 3 and 10, respectively, in the middle- and low-latitude and auroral regions when meteoric ions are included. The distribution of Pedersen and Hall conductances becomes axisymmetric in the middle- and low-latitude regions. Enhanced axisymmetric ionospheric conductance should impact magnetospheric plasma convection. The contribution of meteoric ions to the ionospheric conductance is expected to be important only on Jupiter in our solar system because of Jupiter’s intense magnetic and gravitational fields.

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DO - 10.1029/2022JA030312

M3 - Article

AN - SCOPUS:85127307995

SN - 2169-9380

VL - 127

JO - Journal of Geophysical Research: Space Physics

JF - Journal of Geophysical Research: Space Physics

IS - 3

M1 - e2022JA030312

ER -

Effect of Meteoric Ions on Ionospheric Conductance at Jupiter

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