Jets Downstream of Collisionless Shocks: Recent Discoveries and Challenges

Eva Krämer; Florian Koller; Jonas Emil Suni; Adrian T. LaMoury; Adrian Pöppelwerth; Georg Glebe; Tara Mohammed-Amin; Savvas Raptis; Stefan Weiss; Niki Xirogiannopoulou; Martin Archer; Xóchitl Blanco-Cano; Herbert Gunell; Tomas Karlsson; Ferdinand Plaschke; Luis Preisser; Owen Roberts; Cyril Simon Wedlund; Manuela Temmer; Zoltán Vörös

doi:10.1007/s11214-024-01129-3

Jets Downstream of Collisionless Shocks: Recent Discoveries and Challenges

Eva Krämer, Florian Koller, Jonas Emil Suni, Adrian T. LaMoury, Adrian Pöppelwerth, Georg Glebe, Tara Mohammed-Amin, Savvas Raptis, Stefan Weiss, Niki Xirogiannopoulou, Martin Archer, Xóchitl Blanco-Cano, Herbert Gunell, Tomas Karlsson, Ferdinand Plaschke, Luis Preisser, Owen Roberts, Cyril Simon Wedlund, Manuela Temmer, Zoltán Vörös

Alkeishiukkasfysiikka ja astrofysiikka

Tutkimustuotos: Artikkelijulkaisu › Katsausartikkeli › vertaisarvioitu

Abstrakti

Plasma flows with enhanced dynamic pressure, known as magnetosheath jets, are often found downstream of collisionless shocks. As they propagate through the magnetosheath, they interact with the surrounding plasma, shaping its properties, and potentially becoming geoeffective upon reaching the magnetopause. In recent years (since 2016), new research has produced vital results that have significantly enhanced our understanding on many aspects of jets. In this review, we summarise and discuss these findings. Spacecraft and ground-based observations, as well as global and local simulations, have contributed greatly to our understanding of the causes and effects of magnetosheath jets. First, we discuss recent findings on jet occurrence and formation, including in other planetary environments. New insights into jet properties and evolution are then examined using observations and simulations. Finally, we review the impact of jets upon interaction with the magnetopause and subsequent consequences for the magnetosphere-ionosphere system. We conclude with an outlook and assessment on future challenges. This includes an overview on future space missions that may prove crucial in tackling the outstanding open questions on jets in the terrestrial magnetosheath as well as other planetary and shock environments.

Alkuperäiskieli	englanti
Artikkeli	4
Lehti	Space Science Reviews
Vuosikerta	221
Numero	1
Sivumäärä	59
ISSN	0038-6308
DOI - pysyväislinkit	https://doi.org/10.1007/s11214-024-01129-3
Tila	Julkaistu - helmik. 2025
OKM-julkaisutyyppi	A2 Katsausartikkeli tieteellisessä aikakauslehdessä

Tieteenalat

Ionosphere and magnetosphere dynamics
114 Fysiikka

Pääsy asiakirjaan

10.1007/s11214-024-01129-3Lisenssi: CC BY

s11214-024-01129-3Lopullinen julkaistu versio, 9,6 MBLisenssi: CC BY

Siteeraa tätä

Krämer, E., Koller, F., Suni, J. E., LaMoury, A. T., Pöppelwerth, A., Glebe, G., Mohammed-Amin, T., Raptis, S., Weiss, S., Xirogiannopoulou, N., Archer, M., Blanco-Cano, X., Gunell, H., Karlsson, T., Plaschke, F., Preisser, L., Roberts, O., Wedlund, C. S., Temmer, M., & Vörös, Z. (2025). Jets Downstream of Collisionless Shocks: Recent Discoveries and Challenges. Space Science Reviews, 221(1), Artikkeli 4. https://doi.org/10.1007/s11214-024-01129-3

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title = "Jets Downstream of Collisionless Shocks: Recent Discoveries and Challenges",

abstract = "Plasma flows with enhanced dynamic pressure, known as magnetosheath jets, are often found downstream of collisionless shocks. As they propagate through the magnetosheath, they interact with the surrounding plasma, shaping its properties, and potentially becoming geoeffective upon reaching the magnetopause. In recent years (since 2016), new research has produced vital results that have significantly enhanced our understanding on many aspects of jets. In this review, we summarise and discuss these findings. Spacecraft and ground-based observations, as well as global and local simulations, have contributed greatly to our understanding of the causes and effects of magnetosheath jets. First, we discuss recent findings on jet occurrence and formation, including in other planetary environments. New insights into jet properties and evolution are then examined using observations and simulations. Finally, we review the impact of jets upon interaction with the magnetopause and subsequent consequences for the magnetosphere-ionosphere system. We conclude with an outlook and assessment on future challenges. This includes an overview on future space missions that may prove crucial in tackling the outstanding open questions on jets in the terrestrial magnetosheath as well as other planetary and shock environments.",

keywords = "Ionosphere and magnetosphere dynamics, Ionosphere and magnetosphere dynamics, Ionosphere and magnetosphere dynamics, 114 Physical sciences",

author = "Eva Kr{\"a}mer and Florian Koller and Suni, {Jonas Emil} and LaMoury, {Adrian T.} and Adrian P{\"o}ppelwerth and Georg Glebe and Tara Mohammed-Amin and Savvas Raptis and Laura Vuorinen and Stefan Weiss and Niki Xirogiannopoulou and Martin Archer and X{\'o}chitl Blanco-Cano and Herbert Gunell and Heli Hietala and Tomas Karlsson and Ferdinand Plaschke and Luis Preisser and Owen Roberts and Wedlund, {Cyril Simon} and Manuela Temmer and Zolt{\'a}n V{\"o}r{\"o}s",

year = "2025",

month = feb,

doi = "10.1007/s11214-024-01129-3",

language = "English",

volume = "221",

journal = "Space Science Reviews",

issn = "0038-6308",

publisher = "Springer Netherlands",

number = "1",

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Krämer, E, Koller, F, Suni, JE, LaMoury, AT, Pöppelwerth, A, Glebe, G, Mohammed-Amin, T, Raptis, S, Weiss, S, Xirogiannopoulou, N, Archer, M, Blanco-Cano, X, Gunell, H, Karlsson, T, Plaschke, F, Preisser, L, Roberts, O, Wedlund, CS, Temmer, M & Vörös, Z 2025, 'Jets Downstream of Collisionless Shocks: Recent Discoveries and Challenges', Space Science Reviews, Vuosikerta 221, Nro 1, 4. https://doi.org/10.1007/s11214-024-01129-3

TY - JOUR

T1 - Jets Downstream of Collisionless Shocks

T2 - Recent Discoveries and Challenges

AU - Krämer, Eva

AU - Koller, Florian

AU - Suni, Jonas Emil

AU - LaMoury, Adrian T.

AU - Pöppelwerth, Adrian

AU - Glebe, Georg

AU - Mohammed-Amin, Tara

AU - Raptis, Savvas

AU - Vuorinen, Laura

AU - Weiss, Stefan

AU - Xirogiannopoulou, Niki

AU - Archer, Martin

AU - Blanco-Cano, Xóchitl

AU - Gunell, Herbert

AU - Hietala, Heli

AU - Karlsson, Tomas

AU - Plaschke, Ferdinand

AU - Preisser, Luis

AU - Roberts, Owen

AU - Wedlund, Cyril Simon

AU - Temmer, Manuela

AU - Vörös, Zoltán

PY - 2025/2

Y1 - 2025/2

N2 - Plasma flows with enhanced dynamic pressure, known as magnetosheath jets, are often found downstream of collisionless shocks. As they propagate through the magnetosheath, they interact with the surrounding plasma, shaping its properties, and potentially becoming geoeffective upon reaching the magnetopause. In recent years (since 2016), new research has produced vital results that have significantly enhanced our understanding on many aspects of jets. In this review, we summarise and discuss these findings. Spacecraft and ground-based observations, as well as global and local simulations, have contributed greatly to our understanding of the causes and effects of magnetosheath jets. First, we discuss recent findings on jet occurrence and formation, including in other planetary environments. New insights into jet properties and evolution are then examined using observations and simulations. Finally, we review the impact of jets upon interaction with the magnetopause and subsequent consequences for the magnetosphere-ionosphere system. We conclude with an outlook and assessment on future challenges. This includes an overview on future space missions that may prove crucial in tackling the outstanding open questions on jets in the terrestrial magnetosheath as well as other planetary and shock environments.

AB - Plasma flows with enhanced dynamic pressure, known as magnetosheath jets, are often found downstream of collisionless shocks. As they propagate through the magnetosheath, they interact with the surrounding plasma, shaping its properties, and potentially becoming geoeffective upon reaching the magnetopause. In recent years (since 2016), new research has produced vital results that have significantly enhanced our understanding on many aspects of jets. In this review, we summarise and discuss these findings. Spacecraft and ground-based observations, as well as global and local simulations, have contributed greatly to our understanding of the causes and effects of magnetosheath jets. First, we discuss recent findings on jet occurrence and formation, including in other planetary environments. New insights into jet properties and evolution are then examined using observations and simulations. Finally, we review the impact of jets upon interaction with the magnetopause and subsequent consequences for the magnetosphere-ionosphere system. We conclude with an outlook and assessment on future challenges. This includes an overview on future space missions that may prove crucial in tackling the outstanding open questions on jets in the terrestrial magnetosheath as well as other planetary and shock environments.

KW - Ionosphere and magnetosphere dynamics

KW - 114 Physical sciences

U2 - 10.1007/s11214-024-01129-3

DO - 10.1007/s11214-024-01129-3

M3 - Review Article

SN - 0038-6308

VL - 221

JO - Space Science Reviews

JF - Space Science Reviews

IS - 1

M1 - 4

ER -