Long-Term Science Goals with In Situ Observations at the Sun-Earth Lagrange Point L4

Dae-Young Lee; Rok-Soon Kim; Kyung-Eun Choi; Jungjoon Seough; Junga Hwang; Dooyoung Choi; Ji-Hyeon Yoo; Seunguk Lee; Sung Jun Noh; Jongho Seon; Kyung-Suk Cho; Kwangsun Ryu; Khan-Hyuk Kim; Jong-Dae Sohn; Jae-Young Kwak; Peter H. Yoon

doi:10.5140/JASS.2024.41.1.1

Journal of Astronomy and Space Sciences (Mar 2024)

Long-Term Science Goals with In Situ Observations at the Sun-Earth Lagrange Point L4

Dae-Young Lee,
Rok-Soon Kim,
Kyung-Eun Choi,
Jungjoon Seough,
Junga Hwang,
Dooyoung Choi,
Ji-Hyeon Yoo,
Seunguk Lee,
Sung Jun Noh,
Jongho Seon,
Kyung-Suk Cho,
Kwangsun Ryu,
Khan-Hyuk Kim,
Jong-Dae Sohn,
Jae-Young Kwak,
Peter H. Yoon

Affiliations

Dae-Young Lee: ORCiD; Chungbuk National University
Rok-Soon Kim: ORCiD; Korea Astronomy and Space Science Institute
Kyung-Eun Choi: ORCiD; University of California, Berkeley
Jungjoon Seough: ORCiD; Korea Astronomy and Space Science Institute
Junga Hwang: ORCiD; Korea Astronomy and Space Science Institute
Dooyoung Choi: ORCiD; Chungbuk National University
Ji-Hyeon Yoo: ORCiD; Chungbuk National University
Seunguk Lee: ORCiD; Chungbuk National University
Sung Jun Noh: ORCiD; Los Alamos National Laboratory
Jongho Seon: ORCiD; Kyung-Hee University
Kyung-Suk Cho: ORCiD; Korea Astronomy and Space Science Institute
Kwangsun Ryu: ORCiD; Satellite Technology Research Center, Korea Advanced Institute of Science and Technology
Khan-Hyuk Kim: ORCiD; Kyung-Hee University
Jong-Dae Sohn: ORCiD; Korea Astronomy and Space Science Institute
Jae-Young Kwak: ORCiD; Korea Astronomy and Space Science Institute
Peter H. Yoon: ORCiD; University of Maryland

DOI: https://doi.org/10.5140/JASS.2024.41.1.1
Journal volume & issue: Vol. 41, no. 1
pp. 1 – 60

Abstract

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The Korean heliospheric community, led by the Korea Astronomy and Space Science Institute (KASI), is currently assessing the viability of deploying a spacecraft at the Sun-Earth Lagrange Point L4 in collaboration with National Aeronautics and Space Administration (NASA). The aim of this mission is to utilize a combination of remote sensing and in situ instruments for comprehensive observations, complementing the capabilities of the L1 and L5 observatories. The paper outlines longterm scientific objectives, underscoring the significance of multi-point in-situ observations to better understand critical heliospheric phenomena. These include coronal mass ejections, magnetic flux ropes, heliospheric current sheets, kinetic waves and instabilities, suprathermal electrons and solar energetic particle events, as well as remote detection of solar radiation phenomena. Furthermore, the mission’s significance in advancing space weather prediction and space radiation exposure assessment models through the integration of L4 observations is discussed. This article is concluded with an emphasis on the potential of L4 observations to propel advancements in heliospheric science.

Published in Journal of Astronomy and Space Sciences

ISSN: 2093-5587 (Print); 2093-1409 (Online)
Publisher: The Korean Space Science Society
Country of publisher: Korea, Republic of
LCC subjects: Science: Astronomy
Website: http://janss.kr

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